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Good afternoon , We are trying to make a simple emulation of the Windows memory mapped caching subsystem. We are using several STL data structures.

  1. A STL deque , std::deque<Range> accesses, which holds and records information about the last recently used to the most recently used memory mapped regions.
  2. A STL set, std::set<char *> ranges_pointer which might hold pointers to the elements in the STL deque..

Basically, when we retrieve a pointer to a valid memory mapped region from the STL set , we would like to use that pointer to direcly access the corresponding element deque in O(constant time). Then, we would like to move that deque element to the front of the STL deque so that that subsequent reguests for clusters of memory mapped addreses can be found at the front of the STL deque accesses.

We know from Stack Overflow that the only STL container that guarantees contingous addresses is STL vector. However, every time one moves a element from a STL vector, it takes O(linear) time to shift or memcpy the remaining items into the right location,This could be expensive. In contrast, when you move a element from STL deque, all one has to rearrange the next and prev pointers on both sides of the element that is moved.

We were wondering if one could write a method to access a STL deque element by its address. Although the std::allocator does not guarantee contiguous STL deque adresses, perhaps we could use a custom memory pool allocator to get a chunk of contiguous addresses.

Also, do BOOST or other C++ frameworks implement contiguous doubly linked lists which offer random access just like STL deque. The class Range holds all the essential information about every cached memory mapped region, The class Range is stored in the the std::deque accessess member variable. Thank you. The class Range is shown below:

class Range { 
     public:   
         explicit Range(int item){
            mLow = item;
            mHigh = item;
            mPtr  = 0;
            mMapPtr = 0;
         }
         Range(int low, int high, char* ptr = 0,char* mapptr = 0,  
               int currMappedLength = 0){  
            mLow = low;
            mHigh = high;
            mPtr  = ptr;
            mMapPtr = mapptr;
            mMappedLength = currMappedLength;       
         }
         Range(void){  
            mLow = 0;
            mHigh = 0;
            mPtr  = 0;
            mMapPtr = 0;
         }


         ~Range(){
         }

         bool operator<(const Range& rhs) const{
                return mHigh < rhs.mHigh;
         } 
         int low() const { return mLow; }   
         int high() const { return mHigh; }
         char* getMapPtr() const { return mMapPtr; }
         int getMappedLength() const { return mMappedLength; }
     private:   
         int mLow;   // beginning of memory mapped region
         int mHigh;  // end of memory mapped region 
         char* mMapPtr; // return value from MapViewOfFile
         int mMappedLength; // length of memory mapped region
}; // class Range 
share|improve this question
    
The term "contiguous doubly linked list" doesn't make sense. If memory was contiguous, you wouldn't need the links between nodes. –  interjay Jun 28 '11 at 17:33
    
interjay, You are correct, I apologize for the use of the term. Thank you for your reply. –  Frank Jun 28 '11 at 17:40
    
You have a misconception of what a deque does... it takes linear time on the minimum of the distances from the removed element to the first or last element. If you want to remove elements from the middle, and that is a common operation, don't use a deque –  David Rodríguez - dribeas Jun 28 '11 at 20:13
    
@David Rodriguez, If one uses binary search and the std::deque random access operator[], theoretcallyit takes 0(logarithmic time) to find the iteration location to remove or insert an element. However, it takes 0(linear time) to find the std::list iterator location to remove from or insert or unless one uses something like skip lists. Does STL or Boost offer any variants of the STL List that are faster than O(linear time) for removing or inserting elements. Thank you for your reply. –  Frank Jun 28 '11 at 20:34
    
@David Rodriguez, The Silicon Graphics STL documentation says it takes O(linear time) to insert or remove from the middle of a deque. Is this because STL deque maintains a separate array of pointers to the doubly linked elements in STL deque? Thank you. –  Frank Jun 28 '11 at 21:52

1 Answer 1

up vote 3 down vote accepted

Rather than using a set to hold the addresses, how about a map that contains the address and an iterator into the deque?

Note that moving an element from the middle of a deque to the beginning or end is going to be no faster than doing it for a vector. You might want to think about using a list.

share|improve this answer
    
@Mark Ransom, Thank you for your answer. If we use a STL map that contains the address and an iterator into the deque, THe iterator may not be accurate after a few deque insertions and several deque erases and push_front. We thought about using a list but it is singly linked altough it may be contiguos. Thank you. –  Frank Jun 28 '11 at 17:23
    
@Frank, I keep forgetting the conditions for iterator invalidation on a deque, I don't use it often enough. I'm not sure why you want contiguous layout for your container, can you explain a little? –  Mark Ransom Jun 28 '11 at 17:29
    
@Mark Ransom, We think your STL map solution is excellent but we don't know what will happen to the dequeue iterator stored in STL map after a few deque insertions. Is there a way to preserve the validity of the STL deque iterator? The reason we would want contiguous layout for a container is so that we can can use pointer arithmetic to access a particular element in a STL container by its address. But, after reading your idea, iterators could be be elegant if their validity can be ensured. Thank you, –  Frank Jun 28 '11 at 17:38
    
@Mark Ransom, We found out the conditions for iterator invalidation on a deque: Following is the excerpts from -- The C++ Standard Library: A Tutorial and Reference, By Nicolai M. Josuttis Any insertion or deletion of elements other than at the beginning or end invalidates all pointers, references, and iterators that refer to elements of the deque. Thank you for your answer, –  Frank Jun 28 '11 at 17:54
    
@Mark Ransom, We just found that that the STL list iterator can stay valid after an insertion or deletion. Here is the quote: Lists have the property that insertion and splicing do not invalidate iterators to list elements, and that even removal invalidates only the iterators that point to the elements that are removed. The ordering of iterators may be changed but the iterators themselves will not be invalidated unless that invalidation or mutation is explicit.We understand why you suggested STL list instead of map. Deque offers random access but List does not. Thank you for your help. –  Frank Jun 28 '11 at 18:16

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