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vector<int> vec;
boost::scoped_array<int> scpaInts;

scpaInts.reset(new int[10]);

for (int i=0; i<10; i++)
    scpaInts[i] = i*2;

vec.assign(&scpaInts[0], &scpaInts[9]+1);      // => method one
vec.assign(scpaInts.get(), scpaInts.get()+10); // => method two

Question 1> I have figured out two methods. But I am not sure whether they are correct or there is a better way to do this.

Question 2> Is it true that we cannot get the valid length from boost::scoped_array?

Thank you

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5 Answers 5

up vote 3 down vote accepted

Question 1: both methods are ok. A pointer to an element of an array can play a role of a random-access iterator. This one is fine as well

vec.assign(&scpaInts[0], &scpaInts[10]);

Question 2: That is true for the same reason that you can't get the length of an C-style array passed to a function.

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Why the above the code scpaInts[10] is legal? It tries to access an out-of-boundary element? –  q0987 Oct 26 '12 at 14:55
2  
    
    
Summary of all that stuff: The C99 standard says that &* is treated as a no-op, so for a pointer ptr, &ptr[10] is equivalent to ptr+10, which is legal. The C++ standard doesn't explicitly say any such thing. Some people argue that it "should" be OK anyway, i.e. that you can apply & to an lvalue and since no lvalue-to-rvalue conversion is performed on the lvalue, it doesn't have to be an accessible object (you're allowed to have an off-the-end pointer but not access scpaInts[10]). –  Steve Jessop Oct 26 '12 at 15:30
    
@Andrey: Yeah, I posted that already...! –  Lightness Races in Orbit Oct 27 '12 at 0:55

Both are ok. But the second one is more clear for me. boost::scoped_array works as simple arrays and you cant now the size of data. To copy it to vector you have to know it size. Here is link about scoped_array iterators and size.

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I'd select method 2:

vec.assign(scpaInts.get(), scpaInts.get()+10); // => method two

Like for ordinary dynamic array:

int * a = new int[10];
...
vec.assign(a, a+10); // => method two

Of course method 1 works too, like for example with dynamic array:

vec.assign(&a[0], &a[9]+1); // => method one

As you can see - the method 2 just looks simpler, thus better.


And, no, there is no size() method in scoped array.

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Both methods seem correct to me, but the second is definitely clearer since you aren't splitting the offset into 9 and 1 components. There are also two other options:

vec.assign(&scpaInts[0], &scpaInts[0] + 10);

Or don't create the vector before you need it (best of all the options):

vector<int> vec(scpaInts.get(), scpaInts.get() + 10);
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Question 1: Both methods are correct.

Question 2: Correct, its just a container similar to std::scoped_ptr, which makes sure that the pointer passed (which was manually created using operator new[]) will be deleted using operator delete []. It doesn't hold any information about the size of the array.

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