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Most posts probably ask question as to why something is not working; mine is to ask why something IS working...

I thought that the only way to dynamically allocate memory was with the use of new or malloc in cpp, but this is apparently wrong. The following code both compiles and works, but cannot figure out why!

int x; 
cin >> x;
valarray<double> data(x);
// initializing elements and printing the array both work fine....

It is driving me crazy. x is not known at compile time, only at run time, and I am not doing:

int x;
cin >> x;
valarray<double> *data;
data = new valarray<double> (x);
...

As you would to dynamically allocate an array. I apparently have a fundamental flaw of memory allocation.* Can someone shed light as to why both of these work??

EDIT: I edited my question to make the actual question I am looking for more clear.

share|improve this question
    
Does anyone actually use valarray? – nbt May 7 '11 at 16:14
    
@unapersson: people should, it works well enough for its purpose. I think nobody knows about it :) – rubenvb May 7 '11 at 16:34
up vote 2 down vote accepted

The dynamic memory allocation is hidden inside of the constructor of the valarray class and still uses new or malloc in the end.

Instead of valarray you could also use a vector. Both classes can be resized at runtime.

That the complexity is hidden behind the interface of the classes is an advantage. You don't ever have to remember to call delete since the destructor of the class will take care of that even when exceptions are beeing thrown; they are exception safe!

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This is exactly what I was trying to get at, thanks. There is still a new or malloc keyword occuring, its just hidden from view. – Tommy May 8 '11 at 15:39

valarray<double> (x) invokes the constructor and although the object is already allocated (on the stack), you allocate the elements of the array through this constructor. Allocating the elements is done internally in the constructor.

new valarray<double> (x) does the same, but it allocates the object itself as well, because new is used. So the object as well as the array elements will be stored on the heap.

share|improve this answer
    
How is it still being allocated to the stack even though x is unknown? Thats what I am trying to get at; the first code block would not work with standard arrays (you would have to use the second block), so what is special about valarray? – Tommy May 7 '11 at 16:18
    
valarray<double> data; allocates the data object on the stack. Now the object itself (think of it as a container) is already there. To actually create the elements inside this object you invoke the constructor. Don't confuse this with standard arrays - standard arrays are arrays themselves, not objects that encapsulate arrays. – Blagovest Buyukliev May 7 '11 at 16:23
    
So its a container that will point to the heap I am guesssing. The "size of the container" is not known, so it cannot allocate all the memory needed for the elements on the stack, correct? – Tommy May 7 '11 at 16:29
    
I guess valarray will never allocate the elements themselves on the stack, it doesn't make sense. Please make a distinction between allocating an object and internal allocation (based on its behaviour) of its properties which the object does through its constructor. – Blagovest Buyukliev May 7 '11 at 16:37
    
Thanks! Better understanding now – Tommy May 8 '11 at 15:40

The line

valarray<double> data;

is automatically creating a valarray<double> object on the stack and is calling the no-argument constructor.

The line

data = valarray<double> (x);

translates to

data.operator=(valarray<double> (x));

which calls the valarray constructor that takes an int. What ends up happening is that another object is automatically created on the stack and is then assigned to the first object.

Note that it would be better to do

valarray<double> data(x);

so that you only create one object instead of creating two and throwing one away.


Edited to address other OP comments

x is not unknown. The cin >> x; line in your program is setting x. So when the valarray constructor is called it is being passed an actual value. At the bottom it's no different than this (though of course since the memory allocation is internal to valarray it can make sure to delete automatically it when the object goes away):

int* makeArray(int size) {
    return new int[size];
}

int main() {
    int s;
    cin >> s;

    int* theArray = makeArray(s);
    // do stuff

    return 0;
}
share|improve this answer
    
Thanks, i edited the code for this! – Tommy May 7 '11 at 16:34

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