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I know the size of a vector, which is the best procedure to initialize it?:

option 1

vector<int> vec(3); //in .h;     //in .cpp;     //in .cpp;     //in .cpp


vector<int> vec;     //in .h
vec.reserve(3);     //in .cpp
vec.push_back(var1);     //in .cpp
vec.push_back(var2);     //in .cpp
vec.push_back(var3);     //in .cpp

I guess the option 2 is better than 1. is it? other options?

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Define "better". – NPE Jan 19 '12 at 15:22
vector<int> vec(3); You should not initialize variables in header files. – Antonio Pérez Jan 19 '12 at 15:26
@Ale both approaches, reserve and initialise, are equally professional. – mloskot Jan 19 '12 at 15:31
@Ale: More professional would be to stop worrying about selecting "better way" for just 3 vector elements. – SigTerm Jan 19 '12 at 15:39
@SigTerm: yes, i see. Is it only to avoid trivial mistakes – Ale Jan 19 '12 at 15:52

6 Answers 6

up vote 6 down vote accepted

Both variants have different semantics, i.e. you are comparing apples and oranges.

The first gives you a vector of n default-initialized values, the second variant reserves the memory, but does not initialize them.

Choose what better fits your needs, i.e. what is "better" in a certain situation.

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+1 for "different semantics". – Kerrek SB Jan 19 '12 at 15:49
No, both give you a vector containing {var1, var2, var3} by slightly different routes. The question is, is either route better than the other? – Mike Seymour Jan 19 '12 at 15:51
So, i think initialization of n default values is useless if I don't use them. – Ale Jan 19 '12 at 15:51
@Ale: initialization to default values is indeed useless in that case, however for types like int default initializing them and then overwriting is really not that expansive, and push_back is typically more expensive then operator[], so in that case there probably is no clear answer for efficency. In the end I would say you really shouldn't worry about that for most cases – Grizzly Jan 19 '12 at 16:03
@Mike Seymour: I've thought about this variant. However, the title state 'initialization or reserve?', which is now what I am focusing my answer on. – phresnel Jan 19 '12 at 17:02

The "best" way would be:

vector<int> vec = {var1, var2, var3};

available with a C++11 capable compiler.

Not sure exactly what you mean by doing things in a header or implementation files. A mutable global is a no-no for me. If it is a class member, then it can be initialized in the constructor initialization list.

Otherwise, option 1 would be generally used if you know how many items you are going to use and the default values (0 for int) would be useful.
Using at here means that you can't guarantee the index is valid. A situation like that is alarming itself. Even though you will be able to reliably detect problems, it's definitely simpler to use push_back and stop worrying about getting the indexes right.

In case of option 2, generally it makes zero performance difference whether you reserve memory or not, so it's simpler not to reserve*. Unless perhaps if the vector contains types that are very expensive to copy (and don't provide fast moving in C++11), or the size of the vector is going to be enormous.

* From Stroustrups C++ Style and Technique FAQ:

People sometimes worry about the cost of std::vector growing incrementally. I used to worry about that and used reserve() to optimize the growth. After measuring my code and repeatedly having trouble finding the performance benefits of reserve() in real programs, I stopped using it except where it is needed to avoid iterator invalidation (a rare case in my code). Again: measure before you optimize.

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+1, especially for Stroustrup's quotation – Antonio Pérez Jan 19 '12 at 16:16
that's clear. thanks – Ale Jan 20 '12 at 3:53
I had my first iterator invalidation because I didn't use reserve. Thanks Stroustrups'quote! – Ale Feb 2 '12 at 19:50

Option 2 is better, as reserve only needs to reserve memory (3 * sizeof(T)), while the first option calls the constructor of the base type for each cell inside the container.

For C-like types it will probably be the same.

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Option 2 is better, even for scalar types. The first will set each element to zero, while the second will leave the memory uninitialised. – Mike Seymour Jan 19 '12 at 15:28
What makes you think that reserve doesn't call constructors? – SigTerm Jan 19 '12 at 15:37
For which definition of "better"? – phresnel Jan 19 '12 at 15:38
@SigTerm: The definition of reserve is that it increases the capacity (i.e. the amount of allocated memory) if necessary, but does not change the size (i.e. the number of objects). Therefore, it cannot construct any objects, except to move them if the vector wasn't empty to start with. – Mike Seymour Jan 19 '12 at 15:44
@phresnel: Since both are correct, and neither particularly more readable than the other, the only sensible definition of "better" would be "more efficient". – Mike Seymour Jan 19 '12 at 15:47

Another option is to Trust Your Compiler(tm) and do the push_backs without calling reserve first. It has to allocate some space when you start adding elements. Perhaps it does that just as well as you would?

It is "better" to have simpler code that does the same job.

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In the long run, it depends on the usage and numbers of the elements.

Run the program below to understand how the compiler reserves space:

vector<int> vec;
for(int i=0; i<50; i++)
  cout << "size=" << vec.size()  << "capacity=" << vec.capacity() << endl;

size is the number of actual elements and capacity is the actual size of the array to imlement vector. In my computer, till 10, both are the same. But, when size is 43 the capacity is 63. depending on the number of elements, either may be better. For example, increasing the capacity may be expensive.

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While your examples are essentially the same, it may be that when the type used is not an int the choice is taken from you. If your type doesn't have a default constructor, or if you'll have to re-construct each element later anyway, it I would use reserve. Just don't fall into the trap I did and use reserve and then the operator[] for initialisation!


std::vector<MyType> myVec(numberOfElementsToStart);
int size = myVec.size();
int capacity = myVec.capacity();

In this first case, using the constructor, size and numberOfElementsToStart will be equal and capacity will be greater than or equal to them.

Think of myVec as a vector containing a number of items of MyType which can be accessed and modified, push_back(anotherInstanceOfMyType) will append it the the end of the vector.


std::vector<MyType> myVec;
int size = myVec.size();
int capacity = myVec.capacity();

When using the reserve function, size will be 0 until you add an element to the array and capacity and numberOfElementsToStart will be equal.

Think of myVec as an empty vector which can have new items appended to it using push_back with no overhead for the first numberOfElementsToStart elements.

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