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We can call destructor explicitly through class pointer, why not constructor? Any idea?

#include <iostream>

class Con {
    Con( int x ) : x( x ) {


    int x;

int main() {
    Con* c = new Con( 1 );
    //c->Con( 2 ); //illegal
    c->~Con(); // ok!
    delete c;


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c->~Con(); may be ok, but delete c; on the next line is not, as it will attempt to call the same destructor again. –  Cubbi Apr 27 '11 at 15:11
You're calling the destructor through the object pointer. Not the class pointer. –  xtofl Apr 27 '11 at 15:12
As xtofl said above you are calling the destructor using object pointer. But if you have not used the constructor you have no object that points to the constructor. –  Sam Apr 27 '11 at 15:18
@xtofl: Thanks, my bad! It should be object pointers. –  Chan Apr 27 '11 at 15:26
@Cubbi: Thanks. I was sloppy when adding the c->~Con(). –  Chan Apr 27 '11 at 15:27

7 Answers 7

up vote 7 down vote accepted

No. You cannot.

Con* c = new Con( 1 );
//c->Con( 2 ); //illegal

You've already called the constructor in the new expression.

By the time you've a valid pointer of type Con*, you've already created an object. And calling constructor on the "constructed" object doesn't even make sense. So why would C++ allow that?

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Thanks, nice explanation. –  Chan Apr 27 '11 at 15:28
This might be nice, but it is not right: It is not that you cannot call the constructor, but rather that the syntax for executing the constructor is special placement-new: new (c) Con(1);. –  David Rodríguez - dribeas Apr 27 '11 at 16:00
@David: What isn't right? You don't call the constructor on the object. You're "constructing" another object in the same memory currently occupied by c. That is no much different than new expression itself. –  Nawaz Apr 27 '11 at 16:04
Let's say that it is imprecise, as the question probably is, and lets word it in a different way: you can execute the constructor over an already constructed object, and it will be UB if the object does exists, in the same way that calling the destructor on an already destructed object is an error: Con c; c.~Con(); c.~Con();. That is if you use call the destructor to represent destroy, then you may as well say call the constructor to represent construct, and that is done with new (including placement new) –  David Rodríguez - dribeas Apr 27 '11 at 17:57
I understand the question not on the should do or is correct, but rather on the the syntax allows/does not allow, and in that sense a slightly different syntax does allow you to execute the constructor manually on a pointer to a type, as you can execute the destructor manually. And in both cases there are good uses and bad uses of the syntax (there is an example in the C++0x drafts that actually tells you to manually call the destructor and reconstruct in place when dealing with unions for which different members might have non-trivial constructor/destructors) –  David Rodríguez - dribeas Apr 27 '11 at 18:01

You can actually call it, it is just that the syntax is not that of calling a member method (of which the destructor is an special case), so it is not done with the member access operators. Rather you have to resort to the placement-new syntax:

Con c;
c.~Con();        // destroy, now c is not a Con anymore
new (&c) Con();  // recreate, now c is a Con again

As a particular case, in the C++0x proposal, that is actually used in one of the code examples, providing means to reuse a union as a different type in the event of an union containing non-POD elements:

union U {
   int i;
   float f;
   std::string s;

int main() {
   U u;
   new (&u.s) std::string( "foo" );
   u.i = 5;


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It will be easier for you if you don't think of constructor and destructor as a functions, that you call. You don't call them. You can only construct or destruct an object. And, as a part of constructing, constructor body is executed. Same, as a part of object destruction, destructor body is executed.

So you can construct object on the stack

YourClass variable(constructor_arguments);

and it will be destructed automatically when it's out of scope.

You can also create object on the heap

YourClass * ptr = new YourClass(parameters);

To destruct such an object you use operator delete

delete ptr;

You can also construct an object in some memory you provided by yourself (rarely needed)

char * pool = new char[sizeof(YourClass)]
YourClass *ptr = new(pool) YourClass(parameters);

You destruct such an object explicitely and the syntax looks like function invokation, but it's rather an object destruction


After this line your object is no more. Invoking anything on it is an undefined behavior. And you still have to manage the memory you allocated for this object

delete[] pool;

So, your question means 'Why can I explicitely destruct an object to which I have a pointer but I can't construct it'? You can't, because it is already constructed.

You can also read C++ FAQ Lite explanation

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No you cant call the constructor of a class the way you explained, and that's because, c doesn't point to a valid object of con type.

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You can only call the constructor when the object is being constructed, hence it's name. Once the object is constructed, I see no reason why you'd want to call it again on the same object. If you want to do something then, you need to call a function defined in that class.

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You can actually call the constructor, just not with the member access semantics, but rather using placement-new (the whole purpose of the void* version of placement new is providing means to create an object in place, i.e. execute the constructor on a block of memory) –  David Rodríguez - dribeas Apr 27 '11 at 16:03
@David, thx! I'm not advanced enough to have known that yet :) –  Tony The Lion Apr 27 '11 at 16:04

A Constructor's intent is to be called when the object is created. Nothing else. If you had a reference counter to keep track of the number of objects, allowing the constructor to be called as a function would mess the counter up.

If you want to reinitialize or reset an object, you can add a function called Reset() or Initialize() and call it from the constructor. Then, you can also call Reset() or Initialize() from an object pointer.

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There is still a way:

template <typename T, typename... Args>
using fn_ExternFunctionConstructorType = void(__thiscall T::*)(Args...);

template <typename RetType, typename T, typename... Args>
using fn_ExternFunctionType = RetType(__thiscall T::*)(Args...);

class __declspec(dllexport) CTest
        std::cout << 6 << std::endl;
    int bla(int val) { std::cout << val << std::endl; return -1; }

int main(int argc, char** argv)
    FARPROC pFuncConstructor = GetProcAddress(GetModuleHandle(NULL), "??0CTest@@QAE@XZ");
    FARPROC pFuncBla = GetProcAddress(GetModuleHandle(NULL), "?bla@CTest@@QAEHH@Z");
    CTest* pTest = (CTest*)malloc(sizeof(CTest));
    (pTest->*reinterpret_cast<fn_ExternFunctionType<int, CTest, int>&>(pFuncBla))(99);
    return 0;

EDIT: took the second constructor call out

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