Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

This is a follow up to Is a list implementation of binary tree scalable?

What can be the advantages or disadvantages of tree implementation done using linear array(stl vector) or stl deque

rather than a binary tree with individual nodes having left and right pointers?

assumptions: the tree will be precomputed and will not be modified once built, and will only be used for searching.

share|improve this question

2 Answers 2

up vote 2 down vote accepted

Well, I'd say it's something of these:

  • with a pointer-tree, you use memory for data and pointers to data, while with std::vector you only allocate memory for the data (the container deals with iterating through itself)
  • if you use std::vector, you memory is localized. E.g. if you want to access a single full level of a tree, that will be sequential in memory, while with individual nodes allocated separately, you would jump through the memory like a bunny rabbit accessing all that
  • if you allocate individual nodes, you actually have no way to allocate them except individually. That means a lot of calls to the malloc-euqivalent function. (There are some tricks you could use to avoid that in C, and they still work in C++, but why go with hacks if you have a ready std::vector solution).
  • when creating a vector, you can use std::vector.reserve() to preallocate all the memory. Additionally, if you know how vector operates, you know that it will call a malloc-equivalent for reserving memory approximately every time you start a new level of your tree - number of allocations should be roughly equal to number of levels in your tree
  • accessing elements of a vector is so easy, navigating through a vector-based fully populated binary tree is very intuitive and easy to work with
share|improve this answer

Arrays (including std::vector) provide good locality of reference and save some space, since they keep data in a contiguous block, whereas a pointer tree may scatter its nodes all over memory and incur allocator overhead.

For a precomputed tree, prefer storing it in a vector. A complete (or near complete) binary tree can be stored very efficiently using the layout commonly used for binary heaps.

(The overhead in a tree can be avoided by picking a good allocator, but the C++ standard library only offers a generic one.)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.