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What is the cheapest way to initialize a std::vector from a C-style array?

Example: In the following class, I have a vector, but due to outside restrictions, the data will be passed in as C-style array:

class Foo {
  std::vector<double> w_;
  void set_data(double* w, int len){
   // how to cheaply initialize the std::vector?

Obviously, I can call w_.resize() and then loop over the elements, or call std::copy(). Are there any better methods?

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The crux of the problem is that there is no way for the vector to know if the same allocator was used to create your C-style array. As such the vector must allocate memory using its own allocator. Otherwise it could simply swap out the underlying array and replace it with your array. –  Void Mar 12 '10 at 18:04

4 Answers 4

up vote 70 down vote accepted

Don't forget that you can treat pointers as iterators:

w_.assign(w, w + len);
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Is there a performance difference between std::copy(w, w + len, w_.begin()) and your assign solution? –  Frank Mar 12 '10 at 19:37
Oh, I guess the difference is that std::copy will not resize the array. –  Frank Mar 12 '10 at 20:01
I don't know if assign is smart enough to compute how much w is distant from w+len (a generic iterator AFAIK does not provide a quick way to do this), so you may enhance a little the performances putting a w_.reserve(len) before that statement; in the worst case you gain nothing. In this way it should have more or less the performance of resize+copy. –  Matteo Italia Mar 12 '10 at 21:25
It's a quality of implementation issue. Since iterators have tags that specify their categories, an implementation of assign is certainly free to use them to optimize; at least in VC++, it does indeed do just that. –  Pavel Minaev Mar 14 '10 at 1:33
The quick solution could be std::vector<double> w_(w,w+len); –  jamk May 15 '13 at 12:13

You use the word initialize so it's unclear if this is one-time assignment or can happen multiple times.

If you just need a one time initialization, you can put it in the constructor and use the two iterator vector constructor:

Foo::Foo(double* w, int len) : w_(w, w + len) { }

Otherwise use assign as previously suggested:

void set_data(double* w, int len)
    w_.assign(w, w + len);
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In my case, the assignment will happen repeatedly. –  Frank Mar 12 '10 at 18:36

You can 'learn' the size of the array automatically:

template<typename T, size_t N>
void set_data(const T (&w)[N]){
    w_.assign(w, w+N);

Hopefully, you can change the interface to set_data as above. It still accepts a C-style array as its first argument. It just happens to take it by reference.

How it works

[ Update: See here for a more comprehensive discussion on learning the size ]

Here is a more general solution:

template<typename T, size_t N>
void copy_from_array(vector<T> &target_vector, const T (&source_array)[N]) {
    target_vector.assign(source_array, source_array+N);

This works because the array is being passed as a reference-to-an-array. In C/C++, you cannot pass an array as a function, instead it will decay to a pointer and you lose the size. But in C++, you can pass a reference to the array.

Passing an array by reference requires the types to match up exactly. The size of an array is part of its type. This means we can use the template parameter N to learn the size for us.

It might be even simpler to have this function which returns a vector. With appropriate compiler optimizations in effect, this should be faster than it looks.

template<typename T, size_t N>
vector<T> convert_array_to_vector(const T (&source_array)[N]) {
    return vector<T>(source_array, source_array+N);
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std::vector<double>::assign is the way to go, because it's little code. But how does it work, actually? Doesnt't it resize and then copy? In MS implementation of STL I am using it does exactly so.

I'm afraid there's no faster way to implement (re)initializing your std::vector.

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