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std::vector<std::vector<int>> vecOfVecs;

What will be positions 0-9 of vecOfVecs? Instances of std::vector?

If so, is this legitimate:

std::vector<int> *pToVec = &(vecOfVecs[0]);
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Totally legitimate. I think you've got it. –  Mark Ransom Dec 5 '12 at 2:09

3 Answers 3

up vote 2 down vote accepted

The "canonical" definition of std::vector::resize in C++03 actually has two parameters, not one, with the second argument being the element value that is used as a "fill value" for the freshly created elements. The second parameter has a default argument equal to a value-initialized object of element type. This means that your call


is actually translated into a

vecOfVecs.resize(10, std::vector<int>());

call. I.e. it is actually you who implicitly supplied a default-constructed instance of std::vector<int> to be used as an initializer for all new elements.

Your pToVec->push_back(10) call is perfectly legitimate.

C++11 made some insignificant (in this context) changes to the definition of resize, but the general effect remains the same: the new elements are value-initialized for you. They are ready to be used immediately after the call to resize.

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Yes, positions 0-9 will be empty instances of std::vector<int>, exactly as if you had said

for (size_t i = vecOfVecs.size(); i < 10; ++i) {
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There is a default second parameter of resize that tells what value you'd like to insert into the additional space. If that value is not specified, the default-constructed value is used instead.

void resize (size_type n, value_type val = value_type());

If n is greater than the current container size, the content is expanded by inserting at the end as many elements as needed to reach a size of n. If val is specified, the new elements are initialized as copies of val, otherwise, they are value-initialized.

Your example is entirely legitimate: your vector of vectors will contain ten empty vectors.

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C++11 changes it so that there are two overloads: resize(size_type) and resize(size_type, const T &) (w/o a defaulted argument). In C++11 resize(n) will default construct the created elements, whereas in C++03 it default constructs the default argument and then copy-constructs the created elements. –  bames53 Dec 5 '12 at 2:32

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