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I read many questions on this topic on stackoverflow. However, I couldn't find my answer in any of them. Hence, this question.

I have

vector< vector< int > > temp

I can reserve memory for outer vector :

temp.reserve(20);

Now, I want to reserve memory for each inside vector. I can do this using:

temp[i].reserve(500);

However, if I use temp.clear(); then the capacity of temp is retained as 20. However, now if I initialize the temp vector with 20 inner vectors, the capacity of these inner vectors is reset to 0 (according to VS2010 Intellisense).

My questions:

  1. How can I retain the inner vector capacity of 500 even after I clear and re-initialize the outer vector?

  2. I am using OpenCV findContours function. This function clears the outer vector and fills it with new set of inner vectors. Does this function cause deallocation and re-allocation of memory?

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3  
When you call clear(), all the inner vectors are destroyed. If you want to retain their capacity, you will have to call clear() for each inner vector. –  VoidStar Aug 10 '12 at 1:40
    
Is it even guaranteed that std::vector::clear preserves the reserved capacity? –  jamesdlin Aug 10 '12 at 1:54
    
Yes, the allocated memory is not released, only the elements are destroyed and the size becomes 0. –  VoidStar Aug 10 '12 at 2:04
    
@jamesdlin Nope that's not guaranteed at all. I worked with an implementation once that freed the memory on clear (although I can't remember which compiler it was). –  Mark B Aug 10 '12 at 2:19
    
@VoidStar: wrong, clear() may or may not release the memory. Actually that detail is implementation-specific. It is not mandatory in any C++ standard. –  Frunsi Aug 10 '12 at 3:59

1 Answer 1

up vote 1 down vote accepted

1) You can't in C++. Clearing the outer vector by definition destroys the inner vectors, releasing all their memory.

2) If it's clearing the outer vector and recreating it, then yes it's causing a deallocation followed by an allocation.

Unfortunately I can't make out what your underlying problem is so I can't offer any more help regarding possible solutions.

EDIT: You could always have outer be a vector of (possibly smart) pointers to inner vectors that are stored in/retrieved from a pool. Then when outer is cleared only the pointer itself is cleared and the pooled inner vector yet remains.

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Thanks for the answer. I was particularly looking at a way to clearing and recreating the outer vector and prevent deallocation followed by reallocation of the inner vector memory. However, I thing this is not possible in C++ –  VP. Aug 10 '12 at 17:02

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