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I'd like to use std::array from C++11 as a field of my own class. It takes two template parameters (first defines type of data, second defines size of an array).

But I know the second parameter only in constructor. I'm not familiar with C++11 standard, but I suppose that it's impossible to set a template parameter during execution.

Are there any alternatives for std::array? std::vector is probably a little too much, cause I will never change the size of it.

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4 Answers 4

up vote 11 down vote accepted

std::vector is the simplest thing to use; although as you say, it does waste a few bytes if you'll never need to resize it.

std::unique_ptr<T[]>, initialised using the result of new T[size], would be the most efficient thing; it should be the same size as a pointer, and will delete the allocated memory for you when it's destroyed. It's not copyable, though; you'll need to provide a copy constructor for your class if you want it to be copyable. It's also less convenient than std::array and std::vector, since it doesn't have the interface of a standard container. You could perhaps write a STL-style wrapper for it if you need that; but I'd just use std::vector in that case.

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I would say use a std::vector over a unique_ptr<T[]>, the former is compatible with all the standard library functions that work on iterators. In fact the whole point of std::array is to provide such an interface over a normal array. –  Andrew Tomazos Jan 31 '12 at 14:42
@user1131467: Indeed, std::vector is much more convenient; but the OP did express a concern about efficiency, so perhaps saving a few bytes is important. –  Mike Seymour Jan 31 '12 at 14:50
If you are going to write a STL-style wrapper, then at least it would also have to know its size. You can only not bother about capacity. –  UncleBens Jan 31 '12 at 22:24

I'm not familiar with C++11 standard, but I suppose that it's impossible to set a template parameter during execution.

You can't pass a value only known at run-time as a template argument ... the code created by a template instantiation has to be created at compile-time, therefore it can't depend on a run-time value.

Some possible solutions are to create template specializations for some common array-size values, and then a possible max-size value. I think though that would be a pretty inefficient way to work.

To be honest, in your situation, a std::vector would most likely be the best solution since you can simply call resize() on the vector to make it the correct size at run-time through dynamic allocation.

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or, instead of resize(), use the std::vector (size_t n) constructor. –  phresnel Jan 31 '12 at 14:45
@phresnel: or reserve + a sequence of push_back/emplace_back if not all your items should be the same. –  Matthieu M. Jan 31 '12 at 15:01

std::array is for when you know the size statically at compile-time. If you don't know until runtime, use a std::vector. If you don't resize it there is not much overhead.

class Container
    vector<T> v;
    Container(int i) : v(i) { v.shrink_to_fit(); }

If you are worried about space:


Not sure if there is a way to construct the vector already trimed. It doesn't seem to be required by the standard to be constructed trimed, although in practice many implementations will do this.

BTW You can also construct a vector with vector(size_t N, T t) which will set every initial element to t (without this the elements are default constructed).

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IIRC, the vector is constructed with exactly the capacity you ask it for. No need to shrink afterwards. The copy-and-swap trick to shrink a vector also relies on that. –  Xeo Jan 31 '12 at 14:48
Interestingly, for some benchmarks, there is no overhead at all and std::vector-code yields the same, vectorized SSE code as with native arrays (with g++ at least) –  phresnel Jan 31 '12 at 14:48
I think an array is allocated in place and a vector is allocated dynamically. –  Andrew Tomazos Jan 31 '12 at 14:59
@user1131467: In principle: Yes. In practice: The optimizer might put away dynamic allocations, depending on circumstances. –  phresnel Feb 2 '12 at 10:35
@phresnel: I mean that sizeof(Container) above will be constant, whereas if I had used an array, sizeof(Container) would be proportional to array size. I am not sure the optimizer can do anything about that, because it doesn't know at compile time whether or not it will be resized from some other compilation unit it hasn't been linked with yet. –  Andrew Tomazos Feb 10 '12 at 0:10

If you don't know the size of the array until run-time, then you want to use a std::vector.

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