iterator insert ( iterator position, const T& x );

Is the function declaration of the insert operator of the std::Vector class.

This function's return type is an iterator pointing to the inserted element. My question is, given this return type, what is the most efficient way (this is part of a larger program I am running where speed is of the essence, so I am looking for the most computationally efficient way) of inserting at the beginning. Is it the following?

//Code 1
vector<int> intvector;
vector<int>::iterator it;
it = myvector.begin();
for(int i = 1; i <= 100000; i++){
    it = intvector.insert(it,i);


//Code 2
vector<int> intvector;
for(int i = 1; i <= 100000; i++){

Essentially, in Code 2, is the parameter,


"Costly" to evaluate computationally as compared to using the returned iterator in Code 1 or should both be equally cheap/costly?

  • 3
    Adding to the front of a vector means moving all the other elements back. If you want (to constantly perform) front insertion, you might really want to use list or deque. – wkl Nov 19 '10 at 15:49
  • 7
    The only way to know how to speed up your program is with profiling. You should just program first then profile it and find out. Stop guessing. Do the second one, it's cleaner. (Obviously, these kind of micro-optimizations never make a difference; case in point, you should be using a container that can insert to the front faster, like deque.) – GManNickG Nov 19 '10 at 15:49
  • You can also use IgushArray ( github.com/igushev/IgushArray ) which like an array has fast constant-time access operation, but insert/erase operation takes only O (N^1/2) time. Be careful, the structure is very sensitive for reserve() – Edward Igushev Feb 10 '12 at 22:48
  • There is a version of vector::insert that takes a range (two iterators) as argument instead of a value. Get an iterator (preferably random access, but at least forward) to generate the integers you want to add, and make a single call to insert: this way the vector will have a single reallocation+shuffling to make space for all of the new values. – Marc Glisse Jan 15 '13 at 16:21
  • std::vector<T>::insert() can invalidate your iterator since it may cause the vector to resize. – ipapadop Feb 27 '13 at 22:13

The efficiency of obtaining the insertion point won't matter in the least - it will be dwarfed by the inefficiency of constantly shuffling the existing data up every time you do an insertion.

Use std::deque for this, that's what it was designed for.


If one of the critical needs of your program is to insert elements at the begining of a container: then you should use a std::deque and not a std::vector. std::vector is only good at inserting elements at the end.

STL diagram for choosing containers

Other containers have been introduced in C++11. I should start to find an updated graph with these new containers and insert it here.

  • 3
    The only case for using list is when you need the splice member. Use deque instead. – Billy ONeal Nov 19 '10 at 15:50
  • 1
    No not only. According to this diagram, when inserting in the middle should we use std::list. – Stephane Rolland Nov 19 '10 at 15:57
  • 1
    @Billy -- That's not the only case for using list. You use list if you need to frequently insert or remove elements from the middle of the list, or call functions that require those operations, (like splice, or sort) – Benjamin Lindley Nov 19 '10 at 16:01
  • 2
    @PigBen: Sort is actually going to be slower on a list, because sort doesn't actually remove anything -- it only needs to compare and swap. (Okay, the swap operation can be made slightly cheaper if your objects are huge, but that's an abnormal use case) The problem with the "insert at middle" argument is that to get to the middle of the list requires linear time. If you can keep iterators around pointing where you need, by all means use list. However, I don't think I've ever seen anyone use list for that purpose; usually what is wanted is deque. – Billy ONeal Nov 19 '10 at 16:06
  • 1
    Looks like the original is here...? linuxsoftware.co.nz/cppcontainers.html – Roddy Nov 19 '10 at 16:22

An old thread, but it showed up at a coworker's desk as the first search result for a Google query.

There is one alternative to using a deque that is worth considering:

std::vector<T> foo;
for (int i = 0; i < 100000; ++i)
std::reverse( foo.begin(), foo.end() );

You still use a vector which is significantly more engineered than deque for performance. Also, swaps (which is what reverse uses) are quite efficient. On the other hand, the complexity, while still linear, is increased by 50%.

As always, measure before you decide what to do.

  • 4
    people say about deque but question was about vector. This reply, IMHO, fit the best – Danil Nov 17 '16 at 12:19

Most likely deque is the appropriate solution as suggested by others. But just for completeness, suppose that you need to do this front-insertion just once, that elsewhere in the program you don't need to do other operations on the front, and that otherwise vector provides the interface you need. If all of those are true, you could add the items with the very efficient push_back and then reverse the vector to get everything in order. That would have linear complexity rather than polynomial as it would when inserting at the front.

  • +1 for a solution to the question. Maybe later on in the code it's important to have a vector. Furthermore, it might be worse to use reserve to already reserve memory and save overhead from continously re-reserving. – ezdazuzena Mar 14 '13 at 13:28

If you're looking for a computationally efficient way of inserting at the front, then you probably want to use a deque instead of a vector.

  • Thanks. I will look into deque. I am hoping like the vector class, the deque class also allows for accessing its elements via object[index]. In my application insertion is one part of the problem...Accessing elements is another. – Tryer Nov 19 '10 at 15:56
  • @Tryer, yes deque supports quick access via [] notation. Not quite as fast as vector, but adequate for most purposes. – Mark Ransom Nov 19 '10 at 16:05

When you use a vector, you usually know the actual number of elements it is going to have. In this case, reserving the needed number of elements (100000 in the case you show) and filling them by using the [] operator is the fastest way. If you really need an efficient insert at the front, you can use deque or list, depending on your algorithms.

You may also consider inverting the logic of your algorithm and inserting at the end, that is usually faster for vectors.

  • Operator[] is no faster than any of the iterator related methods, or really any other method of filling a container (i.e. std::generate_n). Reserving won't really solve what's going on here. Yes, you save the allocations a bit, but you've still got order n-squared overall operation. – Billy ONeal Nov 19 '10 at 16:10
  • @Bill: Yes, the operator is not faster than the iterators or the generate functions. I just was pointing out that reserving the required space at the beginning (in the case he or she knows how much is it) and then accessing it via the operator also saves time and usually makes algorithms more clear. But again, depends on the algorithms. – Diego Sevilla Nov 19 '10 at 16:22

I think you should change the type of your container if you really want to insert data at the beginning. It's the reason why vector does not have push_front() member function.


Intuitively, I agree with @Happy Green Kid Naps and ran a small test showing that for small sizes (1 << 10 elements of a primitive data type) it doesn't matter. For larger container sizes (1 << 20), however, std::deque seems to be of higher performance than reversing an std::vector. So, benchmark before you decide. Another factor might be the element type of the container.

  • Test 1: push_front (a) 1<<10 or (b) 1<<20 uint64_t into std::deque
  • Test 2: push_back (a) 1<<10 or (b) 1<<20 uint64_t into std::vector followed by std::reverse


  • Test 1 - deque (a) 19 µs
  • Test 2 - vector (a) 19 µs
  • Test 1 - deque (b) 6339 µs
  • Test 2 - vector (b) 10588 µs

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