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I'm curious as to how much optimization the compiler will do, so...

// assume we have this declared somewhere
std::vector<int> vec;

// my question is, when fully optimized will this...
for (int i(0); i<100; ++i)
    vec.push_back(i);

// evaluate to this? psuedo code...
const size_t size = size();
const size_t newsize = size + 100;
if (size < vec.capacity())
    vec.exponentialGrowth();
vec.setSize(newsize);
for (size_t i(size); i<newsize; ++i)
    vector[i] = i;

I'm working with Visual Studio Express 2012 with optimization enabled. I've tried looking at the disassembly but the optimization makes it difficult to read.

share|improve this question
    
Re: "I've tried looking at the disassembly but the optimization makes it difficult to read." That probably means the optimizer is doing a good job of optimizing. :-P On a more serious note, I don't think the code you present will be optimized away like that, unless the state of the art of optimizers have approached magical levels of optimization recently. – In silico Dec 3 '12 at 2:04
    
Probably not. If you know the target size, use resize (or reserve). At the same time, be aware that the average number of copies done approaches an upper limit (around 3 with most implementations, if memory serves) so even at worst, it's rarely as big an issue as many people initially think. – Jerry Coffin Dec 3 '12 at 2:05
    
Instead of using int as the template argument, use a user defined class. Instrument the different constructors and see what happens. – user515430 Dec 3 '12 at 2:09
    
@In silico. i'm aware generally "optimization therefor obfuscation" but its silly to assume "obfuscation therefore optimization". I don't think it is magical, it's just moving the capcity check outside the loop right? – Histuries Dec 3 '12 at 2:10
    
@user515430, "instrument the different constructors", please explain this statement briefly. – Histuries Dec 3 '12 at 2:13
up vote 2 down vote accepted

Looking at the assembly generated by VS 2012 with the /Ox option specified, the compiler doesn't optimize to reserve capacity for all 100 elements in one shot.

It adds elements one-by-one, growing the capacity of the vector by 50% when additional room is needed. The capacity of the vector starts at 0, then grows like so:

1, 2, 3, 4, 6, 9, 13, 19, 28, 42, 63, 94, 141 

GCC 4.7.2 with -O2 behaves similarly, but grows by doubling capacity instead of growing by 50%.

share|improve this answer

The std::vector will resize exponentially, whether compiler optimizations are turned-on or not.

If you are worried about resize performance (and can't reserve enough space in advance), consider using std::deque. To quote Herb Sutter: "A deque is easier to use, and inherently more efficient for growth, than a vector."

share|improve this answer
    
I had exponentialGrowth() in the code becase I assume reserve will allocate only what is asked for while if the optimization simply moved the resize check out of the loop it would almost certainly have grown exponentially. This doesn't account for situations where exponential growth wouldn't grow enough but ultimately the question is about optimization expectations. – Histuries Dec 3 '12 at 2:29
    
@Histuries The push_back will grow the vector exponentially and I doubt the compiler is smart enough to understand the connection between the number of push_back calls and the ultimate memory needed. That's a guess, but an educated one: compiler simply doesn't operate at that level of abstraction. It's easy to check, after all: just read the capacity with and without optimizations turned-on and if there is a difference, I'm wrong. – Branko Dimitrijevic Dec 3 '12 at 2:37

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