When making a binary max heap, why is it better to implement it as a array based, and not a tree based (tree based as in, each node also having a pointer to it's parent)? In terms of run time analysis, memory usage, performance...
For binary max heap, the running times are:
For a tree implementation
Can anyone explain in detail?
The tree uses more time and memory. The complexities are the same, but the constant factors are different.
The pointers of the tree use a lot of memory, compared to the array-based heap, where you barely need any additional space but the one taken by the values themselves. And manipulating these pointers takes time too. Allocating and deallocating nodes might take some time and space also...
In addition, there's no guarantee that the nodes of the tree will be together in memory. If any of the two alternatives takes benefit of the cache, it is the array-based heap.
With reference to what's been already said through others' answers, one may wonder why we don't use arrays for BST too. The binary heap has the requirement that it should be a complete binary tree. Therefore, the depth of the leaf nodes is always h or h-1. I believe it's this property that makes using arrays ideal for binary heaps and unfit for BST (since BST don't have the complete binary tree requirement - it could be strict/full/complete).
Trees use more time and memory; even tho Asymptotically they have the same time-space complexity, the constant factors are different. Pointers require a lot more memory, especially if we have 3 pointers per node: for each node we would have:
Allocating/ deallocating takes longer than just insert element in an array which have O(1) complexity.
technically using arrays or trees is asymptotically the same but in practice, trees are slower because they take more time and memory
