# accessing std::list in the middle

I have a dummy question. I always read that C++ `std::list` container has constant time for inserting elements at the beginning, at the end and in the middle: Which is the correct way to insert an element directly in the middle of a `std::list`? Is maybe this one?

``````  std::list<int> l;
l.push_back(10);
l.push_back(20);
l.push_back(30);
l.push_back(40);
l.push_back(50);
l.push_back(60);
l.insert( l.end()- l.begin() /2 ); //? is this
// inserting directly in the middle?
``````

When we say 'inserting in the middle' do we really mean that we save linear time to go from the beginning of the list to the desired point ( traversing one by one through all linked elements in between)?

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They don't mean the exact middle -- just somewhere other than the beginning or end. –  Vaughn Cato Nov 8 '11 at 14:59
Hi Vaughn!Thanks for the clarification...the more I do this job and the more I think that it is really time to start reading some good old-style adventure book..to relax a bit and reading things without too much checking about the strict meaning. Cheers AFG –  Abruzzo Forte e Gentile Nov 8 '11 at 15:31

Here, "the middle" means an arbitrary point in the list, as long as you already have an iterator referring to that point. Given that, insertion is just a matter of modifying a few pointers around the insertion point.

If you don't already have an iterator for the insertion point, and it isn't somewhere simple like the beginning or the end, then it will take linear time to walk through the list to find it.

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Hi Mike! Thank a lot for clarifying my English doubts! –  Abruzzo Forte e Gentile Nov 8 '11 at 15:33

You can do the iterator maths generically like this:

`````` std::list<int>::iterator it = l.begin();
l.insert(it, value);
``````

This will work for any iterator type (except OutputIterator or InputIterator)

Of course it is way more efficient to say

`````` std::advance(it, l.size()/2);
l.insert(it, value);
``````

Unfortunately, `l.insert(l.begin + (l.size()/2), value)` won't work because list iterators aren't random access, therefore don't have `operator+` defined (to prevent performance surprises!). Keep in mind that `std::advance()` might be a costly operation depending on iterator type (it will be slow for reverse iterators implemented on a forward-only container, e.g.).

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Actually the `.size()` version isn't way more efficient for `std::list`. It's about equal, you just save some tokens typing it. –  jpalecek Nov 8 '11 at 15:16
@jpalecek: In C++11, it is way more efficient, constant time vs. linear. In C++03, it was implementation dependent whether `size()` was constant or linear, but `distance()` pretty much has to be linear. –  Mike Seymour Nov 8 '11 at 15:22
Hi sehe! Great explanation! –  Abruzzo Forte e Gentile Nov 8 '11 at 15:32
@MikeSeymour: Ah, thanks for the explanation! It seems it was the same in C++03, but different in the original SGI STL (which OTOH required that `splice` is constant time). –  jpalecek Nov 8 '11 at 15:53

When we say 'inserting in the middle' do we really mean that we save linear time to go from the beginning of the list to the desired point ( traversing one by one through all linked elements in between)?

Yes.
Basically, It means the list needs to just change pointers to insert a new element and not navigate the entire list or copy the contents etc.Hence the insertion is constant time, because there is no need of traversing the list or copying the containers etc.

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Hmm... Correct explanation, but isn't that more like "no", rather than "yes"? –  Michael Krelin - hacker Nov 8 '11 at 15:05
@MichaelKrelin-hacker: OP states "do we really mean that we save linear time to go from..". Yes We do.Because there is no navigation only pointer rearrangement. –  Alok Save Nov 8 '11 at 15:09
I see your point. I disagree, though, because OP means inserting in the very middle, which takes a bit of snooping around before we can actually find this point. –  Michael Krelin - hacker Nov 8 '11 at 15:12