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What is the difference between a heap and BST?

When to use a heap and when to use a BST?

If you want to get the elements in a sorted fashion, is BST better over heap?

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@Chris I cannot googled and have answer like you say !!! –  hqt May 16 '12 at 4:11
This question appears to be off-topic because it is about computer science and should be asked on cs.stackexchange.com –  Flow Sep 13 '13 at 23:13
@Flow it has been asked there at: cs.stackexchange.com/questions/27860/… –  Ciro Santilli 六四事件 法轮功 Apr 9 at 5:46

7 Answers 7

Heap just guarantees that elements on higher levels are greater (for max-heap) or smaller (for min-heap) than elements on lower levels, whereas BST guarantees order (from "left" to "right"). If you want sorted elements, go with BST.

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When to use a heap and when to use a BST

Heap is better at findMin/findMax (O(1)), while BST is good at all finds (O(logN)). Insert is O(logN) for both structures. If you only care about findMin/findMax (e.g. priority-related), go with heap. If you want everything sorted, go with BST.

First few slides from here explain things very clearly.

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While insert is logarithmic for both in the worst case, the average heap insert takes constant time. (Since most of the existing elements are on the bottom, in most cases a new element will only have to bubble up one or two levels, if at all.) –  johncip Apr 27 '14 at 9:33
@xysun I think BST is better in findMin & findMax stackoverflow.com/a/27074221/764592 –  Yeo Nov 22 '14 at 5:02
@Yeo: Heap is better for findMin xor findMax. If you need both, then BST is better. –  Mooing Duck Apr 9 at 21:14

A binary search tree uses the definition: that for every node,the node to the left of it has a less value(key) and the node to the right of it has a greater value(key).

Where as the heap,being an implementation of a binary tree uses the following definition:

If A and B are nodes, where B is the child node of A,then the value(key) of A must be larger than or equal to the value(key) of B.That is, key(A) ≥ key(B).


I ran in the same question today for my exam and I got it right. smile ... :)

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"heap, being an implementation of binary tree" - just pointing out that a heap is a kind of binary tree, not a kind of BST –  Saad Shakil May 15 at 10:05

As mentioned by others, Heap can do findMin or findMax in O(1) but not both in the same data structure. However I disagree that Heap is better in findMin/findMax. In fact, with a slight modification, the BST can do both findMin and findMax in O(1).

In this modified BST, you keep track of the the min node and max node everytime you do an operation that can potentially modify the data structure. For example in insert operation you can check if the min value is larger than the newly inserted value, then assign the min value to the newly added node. The same technique can be applied on the max value. Hence, this BST contain these information which you can retrieve them in O(1). (same as binary heap)

In this BST (Balanced BST), when you pop min or pop max, the next min value to be assigned is the successor of the min node, whereas the next max value to be assigned is the predecessor of the max node. Thus it perform in O(1). However we need to re-balance the tree, thus it will still run O(log n). (same as binary heap)

I would be interested to hear your thought in the comment below. Thanks :)


Cross reference to similar question Can we use binary search tree to simulate heap operation? for more discussion on simulating Heap using BST.

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Why do you disagree? would you mind share to your thought below? –  Yeo Nov 22 '14 at 5:20
You could certainly store the maximum and/or minimum value of a BST, but then what happens if you want to pop it? You have to search the tree to remove it, then search again for the new max/min, both of which are O(log n) operations. That's the same order as insertions and removals in a priority heap, with a worse constant. –  Justin Lardinois Nov 22 '14 at 5:22
@JustinLardinois Sorry, I forget to highlight this in my answer. In BST, when you do pop min, the next min value to be assigned is the successor of the min node. and if you pop the max, the next max value to be assigned is the predecessor of the max node. Thus it still perform in O(1). –  Yeo Nov 22 '14 at 5:26
I stand corrected. –  Justin Lardinois Nov 22 '14 at 5:45
Correction: for popMin or popMax it is not O(1), but it is O(log n) because it has to be a Balanced BST which need to be rebalance every delete operation. Hence it the same as binary heap popMin or popMax which run O(log n) –  Yeo Nov 22 '14 at 7:33

Advantages of binary heap over a balanced BST:

  • average time insertion into a binary heap is O(1), for BST is O(log(n)). This is the killer feature of heaps.

    There are also other heaps which reach O(1) amortized (stronger) like the Fibonacci Heap and even worst case, like the Brodal queue.

  • binary heaps can be efficiently implemented on top of arrays, BST cannot.

    So we don't have to store 3 pointers per node (left, right, parent) plus balancing data (e.g. RB-ness), saving memory by a constant factor.

  • binary heap creation is O(n) worst case, O(n log(n)) for BST.

Advantage of BST over binary heap:

  • search for arbitrary elements O(log(n)), O(n) for heap, in which the only fast search is for the largest element O(1). This is the killer feature of BSTs.

"False" advantage of heap over BST:

  • heap is O(1) to find max, BST O(log(n)).

    This is "false", because it is trivial to modify a balanced BST to keep track of the largest element, and update it whenever that element could be changed: on insertion of a larger one swap, on removal find the second largest. Can we use binary search tree to simulate heap operation? (mentioned by Yeo).

    Actually, this is a limitation of heaps: the only efficient search is that for the largest element.

More detailed discussion of the hardest points mentioned above.

Average binary heap insert is O(1)


Intuitive argument:

  • bottom tree levels have exponentially more elements than top levels, so new elements are almost certain to go at the bottom
  • heap insertion starts from the bottom, BST must start from the top

In a binary heap, increasing the value at a given index is also O(1) for the same reason. But if you want to do that, it is likely that you will want to keep an extra index up-to-date on heap operations How to implement O(logn) decrease-key operation for min-heap based Priority Queue? e.g. for Dijikstra. Possible at no extra time cost.

BST cannot be efficiently implemented on an array

Heap operations only need to bubble up or down a single tree branch.

Keeping a BST balanced requires tree rotations, which can change the top element for another one, and would require moving the entire array around.


  • BSTs maintain a global property between a parent and all descendants (left smaller, right bigger).

    The top node of a balanced BST is the middle element, which requires global knowledge to maintain (knowing how many smaller and larger elements are there).

  • Heaps maintain a local property between parent and direct children (parent > children).

    The top note of a heap is the big element, which only requires local knowledge to maintain (knowing your parent).

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Another use of BST over Heap; because of an important difference :

  • finding successor and predecessor in a BST will take O(h) time. ( O(logn) in balanced BST)
  • while in Heap, would take O(n) time to find successor or predecessor of some element.

Use of BST over a Heap: Now, Lets say we use a data structure to store landing time of flights. We cannot schedule a flight to land if difference in landing times is less than 'd'. And assume many flights have been scheduled to land in a data structure(BST or Heap).

Now, we want to schedule another Flight which will land at t. Hence, we need to calculate difference of t with its successor and predecessor (should be >d). Thus, we will need a BST for this, which does it fast i.e. in O(logn) if balanced.


Sorting BST takes O(n) time to print elements in sorted order (Inorder traversal), while Heap can do it in O(n logn) time. Heap extracts min element and re-heapifies the array, which makes it do the sorting in O(n logn) time.

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Yes. It is from unsorted to sorted sequence. O(n) time for inorder traversal of a BST, which gives sorted sequence. While in Heaps, you extract min element and then re-heapify in O(log n) time. SO, it will take O(n logn) to extract n elements. And it will leave you with a sorted sequence. –  CoderrOr Apr 1 at 10:51
from unsorted to sorted sequence. O(n) time for inorder traversal of a BST, which gives sorted sequence. Well, from unsorted sequence to BST I don't know a method based on key comparison with less than O(n logn) time, which dominates the BST to sequence part. (Whereas there is O(n) heap construction.). I'd consider it fair (if pointless) to state heaps being close to unsortedness and BSTs sorted. –  greybeard Apr 1 at 19:58
What I am trying to explain here is that if you have a BST and also a Heap of n elements => then all elements could be printed in sorted order from both data structures and BST can do it in O(n) time (Inorder traversal), while Heap would take O(n logn) time. I don't understand what you are trying to say here. How do you say BST will give you sorted sequence in O(n logn). –  CoderrOr Apr 1 at 21:24
I think you are also considering time taken to build a BST and a Heap. But I assume you already have it, that you have build it over the time and now you want to get the sorted result. I am not getting your point? –  CoderrOr Apr 1 at 21:25
Edited... I hope you are satisfied now ;p and give a +1 if its correct. –  CoderrOr Apr 2 at 5:29

Insert all n elements from an array to BST takes O(n logn). n elemnts in an array can be inserted to a heap in O(n) time. Which gives heap a definite advantage

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