Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have a class that looks like this:

typedef std::list<char*> PtrList;
class Foo
   void DoStuff();
   PtrList m_list;
   PtrList::iterator m_it;

The function DoStuff() basically adds elements to m_list or erases elements from it, finds an iterator to some special element in it and stores it in m_it. It is important to note that each value of m_it is used in every following call of DoStuff().

So what's the problem? Everything works, except that profiling shows that the operator new is invoked too much due to list::push_back() called from DoStuff().

To increase performance I want to preallocate memory for m_list in the initialization of Foo as I would do if it were an std::vector. The problem is that this would introduce new problems such as:

  1. Less efficient insert and erase of elements.
  2. m_it becomes invalid as soon as the vector is changed from one call to DoStuff() to the next. EDIT: Alan Stokes suggested to use an index instead of an iterator, solving this issue.

My solution: the simplest solution I could think of is to implement a pool of objects that also has a linked-list functionality. This way I get a linked list and can preallocate memory for it.

Am I missing something or is it really the simplest solution? I'd rather not "re-invent the wheel", and use a standard solution instead, if it exists.

Any thoughts, workarounds or enlightening comments would be appreciated!

share|improve this question
What exactly are you using those char* for ? – ScarletAmaranth May 20 '12 at 14:35
@ScarletAmaranth Those are pointers to locations in memory, where data packets are stored (I simplified it to char* for the question). – Eitan T May 20 '12 at 14:36
Have you checked whether it actually performs better if you just use a vector? It might well do; fast allocation and good cache behaviour often make up for the insert/delete cost. – Alan Stokes May 20 '12 at 14:39
You can specify a custom Allocator (the second parameter to the list template) and use it to allocate from your pool. You might find boost::pool useful. – Alan Stokes May 20 '12 at 14:40
@Eitan could you store an index rather than an iterator into the vector to avoid the invalidation? (Being careful when inserting and deleting.) – Alan Stokes May 20 '12 at 14:45
up vote 4 down vote accepted

I think you are using wrong the container.

If you want fast push back then don't automatically assume that you need a linked list, a linked list is a slow container, it is basically suitable for reordering.

A better container is a std::deque. A deque is basically a array of arrays. It allocates a block of memory and occupies it when you push back, when it runs out it will allocate another block. This means that it only allocates very infrequently and you do not have to know the size of the container ahead of time for efficiency like std::vector and reserver.

share|improve this answer
I need a fast erase in addition to a fast push_back. – Eitan T May 20 '12 at 14:59
Have you actually benchmarked that erase of std::deque against that of std::list. std::list are really very slow in comparison to contiguous storage containers. How larger are your sets. – 111111 May 20 '12 at 15:02
Haven't benchmarked it, no. My sets would contain about ~10,000 elements. – Eitan T May 20 '12 at 15:04
I would string recommend benchmarking it, if you implementation of std::deque is able erase from a single block (or it only has to shuffle down the elements in that block) then I would be surprised if it was slower. – 111111 May 20 '12 at 15:13
I suspect that insert and erase would be much faster for std::list than for std::deque, but that might just as well be compensated by the more efficient allocations of deque. I'll give a try too. – Eitan T May 20 '12 at 15:19

You can use the splice function in std::list to implement a pool. Add a new member variable PtrList m_Pool. When you want to add a new object and the pool is not empty, assign the value to the first element in the pool and then splice it into the list. To erase an element, splice it from the list to the pool.

But if you don't care about the order of the elements, then a deque can be much faster. If you want to erase an element in the middle, copy the last element onto the element you want to delete, then erase the last element.

share|improve this answer

My advice is the same as 111111's, try switching to deque before you write any significant code.

However, to directly answer your question: you could use std::list with a custom allocator. It's a bit fiddly, and I'm not going to work through all the details here, but the gist of it is that you write a class that represents the memory allocation strategy for list nodes. The nodes allocated by list will be a small implementation-defined amount larger than char*, but they will all be the same size, which means you can write an optimized allocator just for that size (a pool of memory blocks rather than a pool of objects), and you can add functions to it that let you reserve whatever space you want in the allocator, at the time you want. Then the list can allocate/free quickly. This saves you needing to re-implement any of the actual list functionality.

If you were (for some reason) going to implement a pool of objects with list functionality, then you could start with boost::intrusive. That might also be useful when writing your own allocator, for keeping track of your list of free blocks.

share|improve this answer
+1: Thanks for your advice. I wanted to conserve time so I wanted to hear other suggestions before I decided to write anything complicated of my own. I followed 111111's suggestion and switched to deque. So far it's working for me (mainly because most of my insertions are push_backs and not in the middle). – Eitan T May 20 '12 at 16:24

Could potentially use list::get_allocator().allocate(). Afaik, default behaviour would be to acquire memory as and when due to the non-contiguous nature of lists - hence the lack of reserve() - but no major drawbacks with using the allocator method occur to me immediately. Provided you have a non-critical section in your program, at the start or whatever, you can at least choose to take the damage at that point.

share|improve this answer

List and vector are completely different in the way they manage objects.

Vector constructs elements in place into a allocated buffer of a given capacity. New allocation happens when the capacity is exhausted. List allocate elements one by one, each into an individually allocated space.

Vector elements shift when something is inserted / removed, hence, vector indexes and element addresses are not stable. List element are re-linked when something is inserted / removed, hence, list iterators and elements addresses are stable.

A way to make a list to behave similarly to a vector, is to replace the default allocator (that allocates form the system every time is invoked) with another one the allocates objects in larger chunks, dispatching sub-chunks to the list when it invokes it. This is not something the standard library provides by default.

share|improve this answer
You meant to say that list iterators are stable, right? – Eitan T May 20 '12 at 15:14
@EitanT: What part of "This is not something the standard library provides by default." did you not understand? – Nicol Bolas May 20 '12 at 15:29
@NicolBolas I'm not talking about standard library itself, maybe there are other "standard" implementations for such purposes. Surely I'm not the first one wanting to preallocate memory for a std::list... – Eitan T May 20 '12 at 15:32
@NicolBolas Some years ago I wrote this: [codeproject.com/Articles/13265/…;: may be it needs some adjustement to fit C++11 style, but it should work! – Emilio Garavaglia May 21 '12 at 6:23
@EitanT: "You meant to say ..." ... oops, just fixed! Sorry – Emilio Garavaglia May 21 '12 at 11:03

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.