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Please consider the following example

struct Foo
    int bar;    
    Foo(int i):bar(i){cout << "real ctor\n";}   
    Foo(){cout << "default ctor\n";}

int main()
    Foo fooArr[3];//default ctor called 3 times 
    for(int i=0;i!=3;++i)cout << fooArr[i].bar << endl;//bare memory junk
    cout << endl;

    vector<Foo> fooVec;
    for(int i=0;i!=3;++i){
        fooVec.push_back(Foo(i));     //only real ctor called
        cout << fooVec[i].bar << endl;//real thing 
    cout << endl;

    int iArr[3];
    for(int i=0;i!=3;++i)cout << iArr[i] << endl;//bare memory junk

I don't want any user of Foo to call its default constructor, because it's not in my design. But I'd like my users to be able to use an array of Foo, to support that, I was forced to provide a pointless and confusing Foo::Foo(). I just don't understand why does the C++ standard force programmers to do such a thing. What is the rationale behind it? Why the inconsistency? Could any of you smart guys who get this explain it to me, please? Thanks in advance!

share|improve this question
You could always make an array of smart pointers. –  chris Oct 13 '12 at 7:07
My class is a POD, which is smaller than 4 bytes, smart pointers would be overkilling for that. –  Need4Steed Oct 13 '12 at 7:12
Your class is not a POD because it has user declared constructors. –  juanchopanza Oct 13 '12 at 7:18
It has to call some constructor because it calls the destructor for every object in the array when it goes out of scope. If it didn't, you would have had to create and free the objects in the array explicitly. Primitive types don't have destructors, so this is not an issue for them. –  Alex Oct 13 '12 at 8:43
Bear in mind that having constructors or other methods does not affect the size of the object. And you are not forced to define an extra constructor. You are forced to declare and define the constructor that the compiler would have generated had you not declared and defined Foo(int). –  juanchopanza Oct 13 '12 at 9:40

3 Answers 3

up vote 3 down vote accepted

You can make arrays of Foo even if it doesn't have a default constructor. It's just that the elements have to be constructed when you declare the array. So you can do this:

Foo fooArr[] = { Foo( 1 ), Foo( 2 ), Foo( 3 ) };

The alternative is to use a a dynamic array (your vector<Foo> example, which is probably best) or an array of pointers to Foo (like shared_ptr<Foo> arrFoo[3])

shared_ptr<Foo> arrFoo[3];
arrFoo[2].reset( new Foo(3) );

A final note about vector<Foo>: since the size of the array is known in advance, you can improve performance by reserving enough space in the vector for all future Foos:

vector<Foo> arrFoo;
arrFoo.reserve( 3 );

for( int i = 0; i<3; ++i )
    arrFoo.push_back( Foo( i ) );

EDIT: Your question was why do you have to have a default constructor to make a static array of the type. I thought the answer was clear but I'll try to explain it.

Foo bar1; Foo bar2; creates two objects using the default constructor, since no arguments were provided.

Foo bar[2]; is essentially the same thing. It declares two objects that need to be constructed. There is no way to declare an object without constructing it - that's the very point of declaring it in the first place.

A static array in C++ is just a bunch of objects placed contiguously memory. It's not a separate object.

Hope that makes sense.

share|improve this answer
I'm aware of the solution you provided, but they're not the anwser for my question, thanks though –  Need4Steed Oct 13 '12 at 7:46
Your edit does make sense, but I don't consider a static array to be objects placed consecutively together, I regard an array just as a chunk of memory(length x sizeof(type)) with type checking as a bonus . I only need the chunk of mem to be allocated, I don't need it to be manipulated before I actually use it. That's why I raised this question. –  Need4Steed Oct 13 '12 at 8:15
Then it's an array of char you're after, not an array of Foo. The type of the array is exactly the reason it's not just a chunk of memory - it has objects in it. You can construct an object in a pre-allocated memory chunk. That's exactly what vector does - check out placement new. –  Alex Oct 13 '12 at 8:17
@Alex: calls to reserve are mostly useless in general given that push_back is amortized O(1). –  Matthieu M. Oct 13 '12 at 13:18
std::vector's reallocation algorithm is very efficient, that's true. Still, if you know the approximate size in advance, you gain some speed and lose nothing by using it. –  Alex Oct 13 '12 at 13:33

The rationale is that the array is full of default constructed elements, so the type of the elements must be default constructible. If you initialized the array with some values, the default construction wouldn't be required:

Foo fooArr1[3]; // full of default constructed Foos
Foo fooArr[3] = {1,2,3}; // default constructor not required. Foo(int) called.

Note that the second line in the code example uses the implicit conversion from int to Foo provided by the implicit Foo(int) converting constructor.

The reason you have to provide your own default constructor is that you have declared one constructor, which disables the automatic generation of the default constructor. The rationale behind this is that if you need to provide some constructor, it is likely that you also want to do something special in the default constructor.

If you really are worried about user provided constructors, then you can make your class a real aggregate and use aggregate initialization:

struct Foo
  // no user declared constructors
  int foo;

int main()
    Foo fooArr1[3]; // OK
    Foo fooArr[3] = { {1}, {2}, {3} }; // aggregate construction 

In C++11 you can enable the compiler generated default constructor using default:

share|improve this answer
Yes, they're always required, unless I initialize it with an aggregate list: Foo fooArr[] = {Foo(1),Foo(2),...,}; But what I want is to set the elements of the array dynamically, namely one by one. –  Need4Steed Oct 13 '12 at 7:18
@Need4Steed you are asking about the rationale behind this, which is what this answer addresses. If you want to add non-default constructed instances to a collection, the actual solution depends on the details of your case. Also, whether you have C++11 support or not might make a difference too. –  juanchopanza Oct 13 '12 at 7:22

You have to choose: either not defining a default constructor, and therefore, you can't declare an array of Foo. Or declaring a default constructor (empty even) and can declare an array of Foo.

If you have dealt before with OOP languages such as C# or Java, and you have a class Foo and Foo[] arr, then you don't have to declare default constructor, because the array in these languages carries only references (addresses) to objects. The array itself is an object, so arr when created will == null. When using arr = new Foo[3]; then we make a new object of array that contains 3 references: arr == { null, null, null }. Then you assign an object to each reference: for (int i = 0; i < 3; ++i) arr[i] = new Foo(i);.

However, C++ is different because the arrays carry the object itself rather than a reference to it. So, when carrying the object itself, it must have no-parameter constructor to be called with each object. (i.e. in C++: Foo arr[3]; then arr = { objectOfFoo, objectOfFoo, objectOfFoo }

A solution to your problem may found by decalring an array of pointers:

Foo * arr[10] = { 0 }; // arr = { NULL, NULL, NULL, ... , NULL }
for (int i = 0; i < 10; ++i) arr[i] = new Foo(3); // you don't have to declare default constructor

// some using of array
// C++ doesn't have a garbage collector
for (int i = 0; i < 10; ++i) delete arr[i];
share|improve this answer
C# does have value types(structs), they can be truely held in an array just like what C++ does, and C# doesn't force you to define a default constructor, the memory chunk allocated for the array will be automatically zeroed out. It's actually not allowed to define a constuctor with on params for a struct type. –  Need4Steed Oct 13 '12 at 7:43
@Need4Steed So I was talking about classes, not structs –  Desolator Oct 13 '12 at 7:48
In c++ struct and class are equivalent in this context. –  juanchopanza Oct 13 '12 at 9:32

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