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In this code the constructor is called twice.

How do I avoid that?

If I uncomment the default constructor code block then code does not give satisfactory output..

And I also want conditional based instantiation of template so I used void pointer.

template<class Type>
class Data{
      Type val;
      Data(Type v){
                cout<<"In Constructor Param";
                val = v;
             //  cout<<"In Constructor Defa";  uncommnet this line
int main(){
    Data<void *> obj;
    obj = new Data<float>(31.34f);


In Constructor Param
In Constructor Param

Thanks for involving.

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Unsure how this code compiles. – Puppy Mar 7 '12 at 15:42
Cause you called it 2 times in C++. – Scott W Mar 7 '12 at 15:45
@DeadMG: If you mean because the new-expression is being assigned to an object, it compiles because the object type has a conversion constructor that takes void* (and therefore any object pointer). The code is well-formed, the memory leak and obsolete header notwithstanding. – Mike Seymour Mar 7 '12 at 15:56
@Mike: Well-formed syntactically, but it exhibits undefined behaviour. See my answer. – Xeo Mar 7 '12 at 15:57
@Xeo: In C++03, it was undefined since such conversions were only defined for POD types, and this isn't quite POD. In C++11, they are well defined for any standard-layout type, including this one. I've no idea what the rules were for whatever ancient dialect is being used here, though. – Mike Seymour Mar 7 '12 at 16:08

4 Answers 4

up vote 4 down vote accepted

Because you are creating three objects. Your code contains an implicit conversion from Data<float>* to Data<void*>, via the conversion constructor Data<void*>::Data(void*), and is equivalent to

Data<void *> obj;                              // first object
Data<float> * temp = new Data<float>(31.34f);  // second object
obj = Data<void *>((void*)temp);               // third (temporary) object

I've no idea how to avoid that, because I've no idea what your code is trying to do. You could prevent weird conversions like that by declaring the constructor explicit, so that it doesn't allow implicit conversions.

Also, whichever book you're using to learn C++ is very outdated. Since 1998 (and possibly earlier), the standard I/O header has been called <iostream> with no .h, and all the standard library's names like cout have been in namespace std.

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I am using Turbo c++ I want to create array of template class Data and each of array element containing different Datatype – Mahesh Meniya Mar 7 '12 at 16:18
@MaheshMeniya: You can't do that with templates - each element of an array must be the same type, and different template specialisations are different types. You'll need either dynamic polymorphism (i.e. store pointers to a base class, and access the objects via virtual functions or RTTI), or a polymorphic wrapper like boost::variant or boost::any , although I doubt that will work on your prehistoric compiler. If you want others to help, it would be a very good idea to learn modern C++, with a modern compiler - there aren't many people who can remember much about Turbo C++. – Mike Seymour Mar 7 '12 at 16:42

The first call should be obvious: is in the call to new Data<float>(31.34f).

The second one is in a temporary object of type Data<void*> that is constructed in the next line. Your code is equivalent to the following:

Data<void *> obj;
Data<float> *t1 = new Data<float>(31.34f); //first!
void *t2 = t1;
Data<void *> t3(t2);  //second!
Data<void *> t4(t3); //copy constructor (elided)
obj = t4;  //operator=

It is worth noting that the last line does a cast that is not probably what you want. That would be:

cout << ((Data<float*>)obj.val).val;

Or similar.

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It's actually Data<void*> t3 = t2, it's an implicit conversion. If the Type constructor of Data was marked explicit, the OP's code would fail to compile. – Xeo Mar 7 '12 at 15:50
@Xeo - I stand corrected! But that syntax adds yet another temporal, constructed with t2 and used to copy-construct t3, although most likely elided by the compiler. – rodrigo Mar 7 '12 at 16:26
No, it is exactly the same, only that T o1(o2); allows explicit conversion and T o1 = o2; only allows implicit conversion. Also, the second form does not call operator=. – Xeo Mar 7 '12 at 16:53
@Xeo - I think that you are wrong. The call to operator= is not done because the compiler is using copy elision. But it is still needed and the access checked. You can test it by adding a private operator=(const Data&) to the class: it will fail to compile. – rodrigo Mar 7 '12 at 17:02
No, obj = t4 will fail to compile. Data<void*> t4 = t3; will not fail and will not call operator=. – Xeo Mar 7 '12 at 17:10

The compiler implicitly declares a copy constructor for you. Next, your Data is implicitly convertible from Type, which in case of void* is implicitly convertible from any other pointer. Let's break this down:

Data<void*> obj;
Data<float>* new_obj = new Data<float>(31.34f); // your call to new
                       // the constructor is called the first time here
void* conv1 = new_obj; // implicit conversion to void*
Data<void*> conv2 = conv1; // implicit conversion from 'Type' (aka 'void*')
                           // the constructor is called the second time here
obj = conv2; // copy constructor

Also, the line cout<<*(float*)obj.val; is invoking undefined behaviour in C++98/03 (and your compiler seems to be much older than that), as your val actually is a Data<float>*, and not a float*. You should have that as

cout << static_cast<Data<float>*>(obj.val)->val;
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+1 for the static_cast suggestion – seanhodges Mar 7 '12 at 15:57
@Xeo: Actually it's not undefined in C++11; converting between a pointer to a standard-layout class and a pointer to its first member is well defined. Not that I'm suggesting anyone should so that. – Mike Seymour Mar 7 '12 at 16:05
@Mike: Ah, yeah, standard-layout. I'm still not too familiar with the new C++11 classifications. I added a remark for C++98/03. However, this is extremely brittle, since you don't cast from Data<float>* to float*, but go through void*. – Xeo Mar 7 '12 at 16:54

Data<void *> obj; constructs a Data object to store void * type using the parameterized constructor passing new Data as the parameter value. obj itself needs to be a pointer:

#include <iostream>

int main(){
    Data<float> *obj = new Data<float>(31.34f);
    std::cout << obj->val;

Your version is equivalent to:

Data<void *> objs; // no param constructor
/* Data<float>(31.34f); param constructor */
obj = Data<void *>(new Data<float>(31.34f)); // param constructor
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