Im working with a std::list.

Elements appear in "order of insertion" into the list, not according to the value of an element.

When std::find()-ing an element, the whole list must be searched.

In order to speed up "finding" from O(n) to O(log(n)) I could myself implement a hash-map to store the std::list elements positions, or I could use boost Multi Indexes, https://www.boost.org/doc/libs/release/libs/multi_index/doc/tutorial/basics.html#list_fast_lookup.

Question: Today, with C++17, is there a standard/common or a best-practices way of implementing a container that have all the properties of a list PLUS fast find (and, eg. remove)? Or, does such a container type already exist? C++20 perhaps?

Edit/Nb: The order of the elements in the list is relevant and thus a std::map can not directly be used.

  • 3
    Why not std::map?
    – IS4
    Oct 26, 2020 at 14:05
  • 3
    Pretty hard to do a O(log n) search on a sequence that doesn't have random access. Oct 26, 2020 at 14:06
  • @IllidanS4supportsMonica because i need the order in which elements were inserted to be preserved.
    – mrchance
    Oct 26, 2020 at 14:06
  • 1
    Searching a std::vector should offer significant performance benefits over a std::list because of better cache locality. Since you are only adding at the end, there's no significant cost to this, unless you do [a lot of] deletes in the middle of the vector. Oct 26, 2020 at 14:29
  • 2
    "all the properties of a list" - Are you sure that you need all the properties of a std::list? If not, @PaulSanders has a good point.
    – Ted Lyngmo
    Oct 26, 2020 at 14:33

3 Answers 3


Since iterators for a std::list remain valid across inserts and deletes (except for the element you deleted, of course), you could maintain a secondaray data structure of type std::map <my_key, my_list_iterator> (or a std::unordered_map if that is more suitable).

Then, whenever you add or delete a list entry, do the same thing to your std::map / unordered_map and you're done. You can, of course, search that with O(log(n)) (or O(1)) complexity.

  • thx, this was what I was thinking to do, but it occurred to me that this kind of need would be sufficiently common for there to exists a ready-made standard container. I will accept your answer, since i gather that it answers my question: what is the/a "standard" way of doing this. I will then implement this simultaneous bookkeeping in a class offering encapsulation and single-point-of-access. Thanks!
    – mrchance
    Oct 26, 2020 at 15:07

Very short and understandable guide (based on a single example) on how to implement a container with the desired capabilities using Boost MultiIndex https://stackoverflow.com/a/39510606/11608725

It is more hands-on, to me, easier to understand, than the more formal-styled https://www.boost.org/doc/libs/release/libs/multi_index/doc/tutorial/basics.html#list_fast_lookup that covers every possible use (albeit it also uses examples).


A partial and VERY primitive (prototype) implementation of the present answer https://stackoverflow.com/a/64539693/11608725 (by Paul Sanders):

 #include <unordered_map>
 #include <list>
 #include <iterator>
 #include <iostream>

 using std::unordered_map;
 using std::list;
 using std::make_pair;
 using std::begin;
 using std::end;
 using std::prev;
 using std::cout;

 template <typename T>
 struct fastlist {
    list<T> l;
    unordered_map<T, typename list<T>::iterator> m;
    void push_front(T e) {
        m.insert(make_pair(e, begin(l)));

    void push_back(T e) {
        m.insert(make_pair(e, prev(end(l))));

    auto find(T e) {
        return m[e];

    void remove(T e) {
        auto it = m[e];

int main() {          // Giving it a spin
    fastlist<int> f;

    cout << *f.find(4);

demo: https://godbolt.org/z/jdnvdM

Among many other things, this prototype is missing iterator methods to implement a custom container, info on this here: How to implement an STL-style iterator and avoid common pitfalls?.

(Edit: Ted Lyngmo in his comment below provides a better version here: https://godbolt.org/z/6xfbq7).

It really would be neat if this kind of container would be provided out-of-the box. As well as other containers that are modelled on/derived from more fundamental ones, but add specific performance advantages reflecting specific usage situations. If anybody knows of any library that provides that kind of specialized containers, please tell;-)

  • 2
    There are some things that must be changed. Your find() will create a map entry if the element isn't present and return a default constructed list<T>::iterator.The list supports inserting duplicates but the map doesn't. Insert two and remove one and then you'll have a list with one entry while the map is empty. If you find and element and change the value, the corresponding change won't be made in the map. I made a few adjustments here but if you change the value of an entry in the list, it'll be broken.
    – Ted Lyngmo
    Oct 27, 2020 at 10:31
  • 1
    @TedLyngmo Thanks! I will let the "example" stand like it is, but anyone wanting to modify it are of course more than wellcome. I also think I will not embark on making a complete container myself since I dont feel confident that I will be able to make it totally robust + complete + generic + fast. I will be looking out for somebody else's solution and/or some proprietary/professional grade (but free) container. Thx!
    – mrchance
    Oct 27, 2020 at 10:50
  • @TedLyngmo btw, your godbolt.org/z/6xfbq7 is quite neat!! maybe you are not far away from becoming that implementer of a professional-release-grade "index_list" container? nudge nudge, i encourage you;-) thx!
    – mrchance
    Oct 27, 2020 at 11:12
  • 1
    :-) Thanks but I think I'll lean on boost if I ever need a container with these capabilities.
    – Ted Lyngmo
    Oct 27, 2020 at 11:15
  • 1
    @TedLyngmo yeah, certainly, Ive added this stackoverflow answer above stackoverflow.com/a/39510606/11608725 to give a practical example of how to use Boost MultiIndex
    – mrchance
    Oct 27, 2020 at 11:39

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