31

To improve efficiency of std::vector<T>, it's underlying array needs to be pre-allocated and sometimes re-allocated. That, however, requires the creation and later moving of objects of type T with a copy ctor or move ctor.

The problem that I am having is that T cannot be copied or moved because it contains objects that cannot be copied or moved (such as atomic and mutex). (And, yes, I am implementing a simple thread pool.)

I would like to avoid using pointers because:

  1. I do not need a level of indirection and so I do not want one.
  2. (Pointers are less efficient and increase complexity. Using pointers increases memory fragmentation and decreases data locality which can (but not necessarily must) cause a noticeable performance impact. Not so important, but still worth consideration.)

Is there a way to avoid a level of indirection here?

UPDATE: I fixed some incorrect assumptions and re-phrased the question, based on feedback in comments and answers.

8
  • If you can tolerate all of your thread pool objects being default constructed, offering instead other methods to make them live/dead other than ctor/dtor, would std::array do the trick?
    – Joe Z
    Dec 10, 2013 at 6:43
  • 4
    I think for_each is OK for vector members as long as you're using reference to access the members.
    – Mine
    Dec 10, 2013 at 6:50
  • 2
    pre-allocation is not a problem. The memory is pre-allocated, but the objects are only constructed when inserted and it can be done directly in the array using emplace*. But re-allocation requires at least move ctor and you don't have one.
    – Jan Hudec
    Dec 10, 2013 at 7:16
  • 1
    Regarding your edit: "I do not need a level of indirection and so I do not want one." Apparently you do, in fact, need a level of indirection, just not for the reasons you're thinking of. "Using pointers increases memory fragmentation and decreases data locality ..." Utter nonsense – this depends entirely on the allocation scheme. (You're probably thinking of out-of-the-box new, which is only incidentally related to pointers).
    – ildjarn
    Dec 11, 2013 at 7:58
  • 1
    @ildjarn Not sure what you mean. I did learn that I need a level of indirection, but it is hidden in the list or forward_list, as I suggest in my answer. Of course, depending on when and how I allocate my objects, they can actually be stored in contiguous chunks, but I cannot ensure that, if I don't write my own allocator. Even if they are in a single chunk, adding a level of indirection is overhead, even though it is usual marginal. Furthermore, pointers always make the code more complex. Can you please point out exactly where I am wrong?
    – Domi
    Dec 11, 2013 at 10:35

4 Answers 4

21

For the start, std::mutex can not be copied or moved, therefore you are forced to use some kind of indirection.

Since you want to store mutex in a vector, and not copy it, I would use std::unique_ptr.

vector<unique_ptr<T>> does not allow certain vector operations (such as for_each)

I am not sure I understand that sentence. It is perfectly possible to do range for :

std::vector< std::unique_ptr< int > > v;
// fill in the vector
for ( auto & it : v )
  std::cout << *it << std::endl;

or to use std algorithms :

#include <iostream>
#include <typeinfo>
#include <vector>
#include <memory>
#include <algorithm>


int main()
{
    std::vector< std::unique_ptr< int > > v;
    v.emplace_back( new int( 3 ) );
    v.emplace_back( new int( 5 ) );
    std::for_each( v.begin(), v.end(), []( const std::unique_ptr< int > & it ){ std::cout << *it << std::endl; } );
}
4
  • 1
    Good points. I did not even know that mutex could not be moved. That makes vector<T> impossible. I'll see what I can do.
    – Domi
    Dec 10, 2013 at 6:54
  • 3
    I'm betting that the OP has for (auto it : v) //no worky Dec 10, 2013 at 6:54
  • 1
    std::reference_wrapper could also work. Dec 10, 2013 at 6:56
  • 5
    @juanchopanza: With reference_wrapper, you still need to store the objects somewhere, so I'm not sure how it would help. Dec 10, 2013 at 7:07
16

That requires however the creation of objects of type T with a copy ctor.

That is not entirely right, as of C++11, if you use the constructor of std::vector which will default construct a number of elements, then you don't need to have a copy or move constructor.

As such, if no threads are added or deleted from your pool, you can then just do:

int num = 23;
std::vector<std::mutex> vec(num);

If you want to add or delete things dynamically, then you have to use an indirection.

  1. Use std::vector + std::unique_ptr as already proposed
  2. Use a std::deque, that allows you to neatly use it with range based for loops or std-algorithms and avoids all indirections. (Which only allows additions)
  3. Use a std::list/forward_list this solution is similar to number one, however it has the additional benefit of easier usage with range based for and algorithms. It's probably the best if you are only accessing the elements sequentially as there is no support for random-access.

Like this:

std::deque<std::mutex> deq;
deq.emplace_back();
deq.emplace_back();

for(auto& m : deq) {
    m.lock();
}

As a final note, std::thread is of course moveable, so you can use std::vector + std::vector::emplace_back with it.

9
  • The deque is good (just like list and forward_list) but one last complaint I have about this is that it needs a public ctor. I imagine there is no way around that?
    – Domi
    Dec 10, 2013 at 8:02
  • @Domi, what do you mean by a "public ctor"? How else would you like to create elements without a public ctor? Dec 10, 2013 at 8:02
  • Right now, I have the pool as a friend, so it can use a private ctor. But that require moving of things, so, I guess, there is no better way.
    – Domi
    Dec 10, 2013 at 8:03
  • @Domi: you can have a private initial constructor with a public move constructor, move assignment operator and destructor. Dec 10, 2013 at 8:23
  • 1
    @Domi Yeah, sorry for that. My original answer had list instead of deque, when changing to deque, I forgot to check for removal. Since, I have updated the answer to include both deque and list. Dec 10, 2013 at 12:27
1

To summarize what was proposed so far:

  1. Use vector<unique_ptr<T>> -- Adds an explicit level of indirection and was unwanted by OP.
  2. Use deque<T> -- I first tried deque, but erasing objects from it also does not work. See this discussion on differences between deque and list.

The solution is to use forward_list which is a singly-linked list (or you can use list if you want a doubly-linked list). As @JanHudec pointed out, vector (and many of it's friends) require re-allocation when adding or removing items. That does not sit well with objects like mutex and atomic which are not allowed to be copied nor moved. forward_list and list do not require that because each cell is allocated independently (I cannot cite the standard on that, but the indexing method gives rise to that assumption). Since they are actually linked lists, they do not support random access indexing. myList.begin() + i will get you an iterator of the i'th element, but it (most certainly) will have to loop through all previous i cells first.

I have not looked at the promises by the standard, but things work fine on Windows (Visual Studio) and CompileOnline (g++). Feel free to play around with the following test case on CompileOnline:

#include <forward_list>
#include <iostream>
#include <mutex>
#include <algorithm>

using namespace std;

class X
{
    /// Private copy constructor.
    X(const X&);
    /// Private assignment operator.
    X& operator=(const X&);

public:
    /// Some integer value
    int val;
    /// An object that can be neither copied nor moved
    mutex m;

    X(int val) : val(val) { }
};


int main()
{
    // create list
    forward_list<X> xList;

    // add some items to list
    for (int i = 0; i < 4; ++i)
       xList.emplace_front(i);

    // print items
    for (auto& x : xList)
       cout << x.val << endl;

    // remove element with val == 1    
    // WARNING: Must not use remove here (see explanation below)
    xList.remove_if([](const X& x) { return x.val == 1; });


    cout << endl << "Removed '1'..." << endl << endl;

    for (auto& x : xList)
       cout << x.val << endl;

   return 0;
}

Output:

Executing the program....
$demo 
3
2
1
0

Removed '1'...

3
2
0

I expect this to roughly have the same performance as vector<unique_ptr<T>> (as long as you don't use random access indexing too often).

WARNING: Using forward_list::remove does not currently work in VS 2012. That is because it copies the element before trying to remove it. The header file Microsoft Visual Studio 11.0\VC\include\forward_list (same problem in list) reveals:

void remove(const _Ty& _Val_arg)
{   // erase each element matching _Val
    const _Ty _Val = _Val_arg;  // in case it's removed along the way

    // ...
}

So, it is copied "in case it's removed along the way". This means that list and forward_list don't even allow for storing unique_ptr. I assume that this is a design bug.

The work-around is simple: You have to use remove_if instead of remove because the implementation of that function does not copy anything.

A lot of the credit goes to the other answers. However, since none of them was a complete solution without pointers, I decided to write this answer.

3
  • 1
    You cannot use operator+ on std::list::iterator. If you really want that linear-time operation, you have to use std::next(it, n) to return an iterator that is n steps ahead of it. Aug 23, 2014 at 16:04
  • In VS c++20 (not sure about others) you cannot use forward_list for this because both remove and remove_if use move to rearrange object after removal. So it looks like "each cell is allocated independently" statement is not valid. Sep 9, 2022 at 8:05
  • @OlegKorzhukov Maybe it used to be like that, and they finally realized that forward_list is way slower sometimes, so they "fixed" the implementation?
    – Domi
    Sep 9, 2022 at 9:33
0

You can store elements without move or copy constructors in std::vector, but you simply have to avoid methods which require the elements to have move or copy constructors. Almost1 anything that changes the size of the vector (e.g., push_back, resize(), etc).

In practice, this means you need to allocate a fixed-size vector at construction time, which will invoke the default constructor of your objects, which you can modify with assignment. This could at least work for std::atomic<> objects, which can be assigned to.


1 clear() is the only example of a size-changing method that doesn't require copy/move constructors, since it never needs to move or copy any elements (after all, the vector is empty after this operation). Of course, you can never again grow your zero-sized vector again after calling this!

5
  • You are essentially saying: You can use vector just fine, as long as you don't use most of what makes vector vector :)
    – Domi
    Oct 14, 2017 at 4:24
  • 1
    Sure, but most of the banned member functions inherently involve copying or moving. As you've mentioned you can't copy or move the contained objects, so most of the functionality offered by vector (or by any contiguous and re-sizable array) simply isn't possible for your objects. So the limitation isn't so much related to vector, but more "what can you do with a dynamic array of objects that can't be moved or copied?". The remaining functionality is still quite useful: a fixed-but-dynamically-sized array-like container, with guaranteed destruction and contiguous storage. @Domi
    – BeeOnRope
    Oct 14, 2017 at 5:53
  • If you want more even more dynamic behavior, e.g, the ability to add an arbitrary about of objects, rather than use a fixed size at construction, std::deque is a good bet. It allows you emplace_back objects even w/o move or copy constructors. You can remove even more limitations with std::list at the cost of performance.
    – BeeOnRope
    Oct 14, 2017 at 5:55
  • It seems so! I just read the accepted answer and also the most upvoted answer which don't even mention it. I'm not sure why the accepts answer was chosen - the other two seem strictly better, particularly the one by inf. @Domi
    – BeeOnRope
    Oct 14, 2017 at 13:42
  • If you check the timestamps on the conversation threads, you see that there was a feedback loop between our answers: It was not until after I posted my answer that inf mentioned the two lists. And he did not address the VS 2012 bug that caused me a lot of trouble when trying to implement it. (I have not checked since - one can only hope that this is fixed in the latest VS versions)
    – Domi
    Oct 14, 2017 at 14:08

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