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Given

my_type m;
std::vector<my_type> v;

Which runs more quickly?

m.generate_data_inside_self();
v.push_back(m);

Or

v.push_back(m);
v[0].generate_data_inside_self();

If the vector held pointers to the my_types then both would seem about the same.

However when copying in the whole my_type object as in this example I think the 2nd would be faster as there is less to copy as the extra data only comes into existance after "m" is inside "v".

edit:

In the example in my program my_type looks sort of like this.

my_type
{
    private:
        std::vector<unsigned short> data; //empty after construction

    public:
        //no destructors, assignment operators
        //copy constructors etc... explicitly (are) defined
        generate_data_inside_self() //populates data
        {
            //contains for example a loop that populates
            //"data" with some (lets say 50) values
        }
}
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1  
Why isn't the constructor generating the data? Objects that require the user to call some member function to be usable suck. Be usable after construction, always. –  pmr Sep 17 '11 at 21:38
    
You'r wild generalisation is almost certainly wrong sometimes. Besides which my_type would then suck as an example for this question. –  alan2here Sep 17 '11 at 21:47
    
Ah, sorry. Got carried away. But you see what I was trying to say there. –  pmr Sep 17 '11 at 21:49
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6 Answers

up vote 1 down vote accepted

Add it when the complexity of copy constructor/operator == is smaller. If you are generating data, most likely increasing that complexity, insert before generating.

If you have many vector copies and you are concerned about performance, my suggestion is to have a vector of pointers and new (and of course one day delete) the objects and put them in the vector. That way, the cost of inserting in vector is not dependent on the complexity of the object.

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I think insert before generating is probbably the case as well, would be nice to get some more varification either way before accepting an answer, there seems to be a fair amount of disagreement and people not having read the last part of the question. –  alan2here Sep 17 '11 at 21:52
    
What kind of verification do you mean? Isn't it clear how when a class gets mode data, copying it would take more time? –  Shahbaz Sep 18 '11 at 1:32
    
I've accepted your answer, ty. –  alan2here Sep 18 '11 at 22:56
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Sorry, but it depends too much on what your type is. If it holds pointers to some big external block of data, copying it might take essentially no time at all, but you could find that copying it after generating the data is massively slow. Only you know, and if you care about the performance, the only way to find out is to whack it in a for loop and time it.

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Thanks. I've just added more information to the question to allow for a more precise answer. –  alan2here Sep 17 '11 at 21:30
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If you worry about performance here, don't use std::vector<my_type>. Vector will copy all elements on every memory reallocation and can copy elements on element erasure from vector. Use boost::ptr_vector or std::vector<boost::shared_ptr>, this improves performance in both cases: adding elements to vector and reallocation/erasure.

EDIT:

I revised my answer:

The second approach has better performance because avoids copying of filled my_type instance (as opposite to default-constructed with empty std::vector member) on adding to vector. But it's less readable and less canonical. I would recommend to use the first approach as default one and only after profiling to selectively use the second approach or as - I previously proposed - to use boost::ptr_vector or std::vector<boost::shared_ptr>

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The performance of std::vector is amortized O(1). In fact, instead of cost 1 per add, the cost is only 2. It's pretty good. –  Shahbaz Sep 17 '11 at 21:36
    
ty for the helpfull information. I've vote upped your answer. –  alan2here Sep 18 '11 at 22:59
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Unless you give us more data, I think this depends on what your class contains and what data it has to generate. It's rather hard to tell which will be faster, as there could be things involved we cannot tell from your question.

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ty, I've now added more information to the question. –  alan2here Sep 17 '11 at 21:31
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It depends on exactly how the type is defined, and what the function you call does.

In both cases, the object m is copied into the vector after being constructed.

So the answer depends on whether generate_data_inside_self makes a copy more expensive or not. And that depends on how the assignment operator is defined. (And whether, in C++11, a move assignment operator exists, and whether you allow it to be called.)

But as always with performance questions, the only answer that matters is the one you get when you run the code. If you want to know which is faster, time the code and see for yourself.

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Given my example code showing how my_type is defined at the bottom of my question, whats the answer? :¬P –  alan2here Sep 17 '11 at 21:37
    
You haven't shown the full definition of the type. What does its assignment (and move assignment) operator look like? Does it have any other data members? (And why don't you simply benchmark it?) –  jalf Sep 17 '11 at 21:55
    
It's assignment and move assignment operator are not defined (they are as default), it's other properties are not relevent to the question, i'd end up having to describe a lot more of the program it's a part of, also the answer won't help others much if it's too specific. It would be helpfull to know more than just how fast it will run on my system, I didn't realise it would be such a complicated question to answer or that the C++ verstion would play a signifegent role. –  alan2here Sep 17 '11 at 22:10
    
I've further clarified the question. –  alan2here Sep 17 '11 at 22:26
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The size of m is fixed in both examples. Any data you generate in generate_data_inside_self() is either just filling in holes or allocating space that vector doesn't care about (i.e. on the heap).

And more to the point, the content of that data is opaque from vector's perspective, so it doesn't effect performance if it happens to be all zeroes or a random assortment of values; the whole block of size sizeof(m) is copied either way.

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I think I understand what you mean, this would suggest that internally "data" in "my_type" (see the extra information I added to my question) is a sort of pointer and copying a my_type doesn't actually copy it's "data" attribute just a refrance to it. Can you look at the example I've provided and clarify i've understood this correctly. –  alan2here Sep 17 '11 at 21:27
    
sizeof(m) might not change, but the complexity of m's copy constructor/assignment operator certainly can change. vector does not just blindly copy chunks of memory. –  Dennis Zickefoose Sep 17 '11 at 21:27
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