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I have a Visual Studio 2008 C++ program where I'm populating a std::list with the addresses of a memory pool.

I have an implementation that works using std::generate and it's not bad, but it can be a bit slow with large pools of small allocation blocks.

/// fill the allocation list with the memory addresses of each block
struct fill
    fill( void* start, ulong alloc ) 
        : start_( start ), 
          alloc_( alloc ), 
          count_( 0 ) 

    void* operator()()
        return ( void* )( ( ulong ) start_ + ( count_++ ) * alloc_ );

    /// starting address
    void* start_;
    /// size of the blocks
    ulong alloc_;
    /// internal counter
    int count_;
}; // struct fill

ulong begin = 0;            // beginning address
ulong max_size = 0x1000;    // maximum memory pool size (4KB)
ulong block_size = 0x20;    // size of each memory block (32B)

std::list< void* > memory;
memory.resize( max_size / block_size ); // 128 memory blocks
std::generate( memory.begin(), memory.end(), fill( begin, block_size ) );

I was just wondering if anybody had a faster or more efficient method of filling the linked-list.

Thanks, PaulH

share|improve this question
Why are you using a list instead of a vector? What exactly does slow mean? You are allocating 128 small blocks of memory. That should be very fast regardless of the data-structure. –  Björn Pollex May 18 '11 at 13:45
This effort seems misguided. std::list will do its own allocation for each node, so your memory pool won't save you anything (it will probably be slower than normal allocations) –  interjay May 18 '11 at 13:47
it is not strictly related with list but have you consider loki small object allocator? –  Alessandro Teruzzi May 18 '11 at 13:51
For those that require context: stackoverflow.com/questions/6034156/… –  PaulH May 18 '11 at 13:58

1 Answer 1

up vote 3 down vote accepted

Your code passes over the list twice instead of once.

So it might help to define an iterator that returns the addresses, so that everything is done in a single pass:

struct blocks {
    void *current;
    size_t increment;

    blocks(void* start, size_t size = 0) : current(start), increment(size) {}

    bool operator==(const blocks &rhs) const { return current == rhs.current; }
    bool operator!=(const blocks &rhs) const { return current != rhs.current; }
    void *operator*() const { return current; }
    blocks &operator++() {
        current = (void*)( (char*)current + increment );
        return *this;

std::list<void*> memory(blocks(begin, block_size), blocks(max_size));

(Code not tested, and I've left out some of the stuff you need in order to be a proper iterator - it needs tagging if nothing else, and post-increment is usually welcome.)

Currently it's just a ForwardIterator (or would be, if it was tagged). You could make it a RandomAccessIterator easily enough, but you'd have to give the end iterator the correct size. If you used a container of char(*)[block_size] instead of a container of void*, then I think you could just use a boost::counting_iterator<char(*)[block_size]> to populate it.

Fundamentally, though, std::list is moderately slow at this. Unless you're going to do insert/remove in the middle (which seems unnecessary for a memory pool free list - if all the blocks are the same size you should be able to always add and remove at the end), you might do better with a vector or deque, or at least with an intrusive linked list.

share|improve this answer
Steve, isn't std::list a linked-list itself? –  Nawaz May 18 '11 at 14:18
Also, don't you need to implement operator!=? –  Nawaz May 18 '11 at 14:20
@Nawaz: (1) yes, but it is not an intrusive linked list. (2) yes, that lack will almost certainly prevent the list constructor from compiling, so I'll add it. –  Steve Jessop May 18 '11 at 14:25
I've switched to a std::deque and implemented your clever method of using the iterator constructor. It is faster, thank you! –  PaulH May 18 '11 at 14:30
Ohhh.. I didn't know the intrusive and non-intrusive terminologes. thanks. and +1 –  Nawaz May 18 '11 at 14:33

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