For a simple linked list in which random access to list elements is not a requirement, are there any significant advantages (performance or otherwise) to using std::list instead of std::vector? If backwards traversal is required, would it be more efficient to use std::slist and reverse() the list prior to iterating over its elements?

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    (Late comment, just for the record): Link to a lecture by Bjarne Stroustrup: "Why you should avoid Linked Lists", where he claims vectors are always better than lists. The reason he gives is that on average the search for the insertion point dominates the effort, and the shifting of elements (in vectors) is insignificant in comparison. Also: cache misses, but that is mentioned in the answer below already. Video: youtube.com/watch?v=YQs6IC-vgmo
    – Mörre
    Jan 16, 2014 at 13:04
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    Even though list is almost always slower than vector (except for when doing high levels of splicing) there is one time you absolutely NEED a list: stable iterators. If you need to keep copies of iterators that will always point to the same element (unless removed), this is not a guarantee vector can provide (e.g. a call to push_back can invalidate all iterators). Using memory pools can get the speed of a list much closer to that of a vector. Jul 1, 2014 at 22:00

7 Answers 7


As usual the best answer to performance questions is to profile both implementations for your use case and see which is faster.

In general if you have insertions into the data-structure (other than at the end) then vector may be slower, otherwise in most cases vector is expected to perform better than list if only for data locality issues, this means that if two elements that are adjacent in the data-set are adjacent in memory then the next element will already be in the processor's cache and will not have to page fault the memory into the cache.

Also keep in mind that the space overhead for a vector is constant (3 pointers) while the space overhead for a list is paid for each element, this also reduces the number of full elements (data plus overhead) that can reside in the cache at any one time.

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    Keep in mind also that even insertions are faster in a vector than in a linked list if the location to insert into has to be searched for. For example, taking a bunch of random integers and inserting them in sorted order into a vector or a linked list -- the vector will always be faster, regardless of the number of items total, due to cache misses when searching for the insertion point in the linked list. Sep 29, 2012 at 22:45
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    Pretty much the only place where a linked list is faster is when you are doing a lot of splicing, since that does not involve a large number of cache misses, and each splice is a constant-time operation (which can move a large number of items from one linked list to another). Sep 29, 2012 at 22:47
  • "Also keep in mind that the space overhead for a vector is constant" Only if you're very very careful. For casual usage, it has linear space overhead, same as a list. See: amortized linear push_back. Mar 13, 2017 at 21:46
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    @MooingDuck you're right that at the worst case vector will allocate twice as much space as it needs but all but a constant part of this space is cold and won't cause any additional cache hits.
    – Motti
    Mar 14, 2017 at 8:22
  • Virtual memory overhead for vector is between 1x and 2x due to vector capacity ~ doubling at every resize, plus the 3 pointers. Physical memory overhead is platform dependent but on most x86 platforms, it will be at most a couple 4 kB pages (those where the vector begins and ends). Very large amounts of data can cause vector to fail allocating where a fragmented data structure would succeed. std::deque is a very good alternative to vector in many cases including for huge containers. Nov 14, 2023 at 15:38

Default data structure to think of in C++ is the Vector.

Consider the following points...

1] Traversal:
List nodes are scattered everywhere in memory and hence list traversal leads to cache misses. But traversal of vectors is smooth.

2] Insertion and Deletion:
Average 50% of elements must be shifted when you do that to a Vector but caches are very good at that! But, with lists, you need to traverse to the point of insertion/deletion... so again... cache misses! And surprisingly vectors win this case as well!

3] Storage:
When you use lists, there are 2 pointers per elements(forward & backward) so a List is much bigger than a Vector! Vectors need just a little more memory than the actual elements need.

Yout should have a reason not to use a vector.

I learned this in a talk of The Lord Bjarne Stroustrup: https://youtu.be/0iWb_qi2-uI?t=2680

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    I think you mean cache miss, but as an indie game developer the code I write has also had some cash misses too. Mar 30, 2013 at 5:00
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    java.dzone.com/articles/c-benchmark-%E2%80%93-stdvector-vs Kindof same thing as Bjarne says, but with better numbers and source code for the tests.
    – gulgi
    Jul 2, 2013 at 11:48
  • @gulgi , that link deserves a separate answer, not just a comment. It would be nice to have the graph and short explanations here on Stackoverflow. Aug 7, 2017 at 19:14

Simply no. List has advantages over Vector, but sequential access is not one of them - if that's all you're doing, then a vector is better.

However.. a vector is more expensive to add additional elements than a list, especially if you're inserting in the middle.

Understand how these collections are implemented: a vector is a sequential array of data, a list is an element that contains the data and pointers to the next elements. Once you understand that, you'll understand why lists are good for inserts, and bad for random access.

(so, reverse iteration of a vector is exactly the same as for forward iteration - the iterator just subtracts the size of the data items each time, the list still has to jump to the next item via the pointer)

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    This is the obvious, and 99% of the time, correct answer. If you need backwards traversal run your for loop backwards. Arrays/Vectors provide random access, very fast sequential access, and equally fast sequential access from any random starting point in the vector. Liked lists have only one forte', and that is deleting members or inserting members at some point along the list. They pretty much suck at everything else. Slow, slow, slow. Growing an array/vector is as easy as a new malloc() and memmove(). Using Vprime, Vgrow, you can just realloc them and copy back and forth.
    – user1899861
    Aug 19, 2013 at 6:27

If you need backwards traversal an slist is unlikely to be the datastructure for you.

A conventional (doubly) linked list gives you constant insertion and deletion time anywhere in the list; a vector only gives amortised constant time insertion and deletion at the end of the list. For a vector insertion and deletion time is linear anywhere other than the end. This isn't the whole story; there are also constant factors. A vector is a more simple datastructure that has advantages and disadvantages depending on the context.

The best way to understand this is to understand how they are implemented. A linked list has a next and a previous pointer for each element. A vector has an array of elements addressed by index. From this you can see that both can do efficient forwards and backwards traversal, while only a vector can provide efficient random access. You can also see that the memory overhead of a linked list is per element while for the vector it is constant. And you can also see why insertion time is different between the two structures.

  • An important point is that lists have additional pointers per element while a vector just has three pointers for the whole data structure.
    – Motti
    Oct 26, 2008 at 19:25
  • Yes, that's true: My response says: "A linked list has a next a previous pointer for each element. A vector has an array of elements addressed by index." Clearly the word "and" is missing(!) and I'll make the extra pointers clear.
    – janm
    Oct 27, 2008 at 1:08

Some rigorous benchmarks on the topic: http://baptiste-wicht.com/posts/2012/12/cpp-benchmark-vector-list-deque.html

As has been noted by others, contiguous memory storage means std::vector is better for most things. There is virtually no good reason to use std::list except for small amounts of data (where it can all fit in the cache) and/or where erasure and reinsertion are frequent. Complexity guarantees do Not relate to real-world performance because of the difference between cache and main memory speeds (200x) and how contiguous memory access affects cache usage. See Chandler Carruth (google) talk about the issue here: https://www.youtube.com/watch?v=fHNmRkzxHWs

And Mike Acton's Data Oriented Design talk here: https://www.youtube.com/watch?v=rX0ItVEVjHc


See this question for details about the costs:
What are the complexity Guarantees of the standard containers

If you have an slist and you now want to traverse it in reverse order why not change the type to list everywhere?

  • std::vector is insanely faster than std::list to find an element
  • std::vector always performs faster than std::list with very small data
  • std::vector is always faster to push elements at the back than std::list
  • std::list handles large elements very well, especially for sorting or inserting in the front

Note: If you want to learn more about performance, I would recommend to see this

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