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I have this small piece of code that doesn't compile, and I was wondering about the reasons more specifically why is push(new X) the problem?

Before that, I would like to ask what new X (with no identifier) really mean? does it create an object X with no identifier name? does it go through the constructor at all?

Secondly,

I might not understand the whole concept, but, push is a template class, right? Since it contains a static T stack, the type T is consistent and can not be changed once a specific argument is sent, the first one, in this case int x. Is that correct?

Thirdly, following my second question, if it is correct then why push(y) do not flag a compiler error just like push(new X) does? i mean, x is an int type and y is a reference type.

I'd really appreciates if someone can clarify it for me.

Thanks, here it is:

    #include <iostream>

    using namespace std;

    template <class T>
    void push(T &t) {
    static const int CAPACITY = 20;
    static T stack[CAPACITY];
    static int size = 0;
    stack[size++] = t;
    cout << size;
    };
   class X {};

   void main()
   {
   int x = 3;
   int &y = x;
   push(x);
   push(new X);
   push(y);
 }
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  • gold push is a template function. May 4, 2020 at 16:30
  • gold The operator new returns pointer to a dynamically created object. May 4, 2020 at 16:31
  • Please one question per question. And if your code does not compile show compiler error (first one is enough) and point to the line that produced it.
    – Slava
    May 4, 2020 at 16:47
  • For push (y), Google "reference collapsing" May 4, 2020 at 16:47

1 Answer 1

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and I was wondering about the reasons more specifically why is push(new X) the problem?

Because you declared type of your template function parameter as non const lvalue reference to T. To help programmers to avoid incorrect code language does not allow to bind temporaries to non const lvalue references. In your case:

new X

returns a temporary of type X * (pointer to X), your template function argument type T deduced to X * in this case and t is now lvalue reference to X * or X *& but language does not allow to bind temporary to an lvalue reference hense compilation error. Your second case is logically equal to this code:

 void pushX( X *&t ); // pushX accepts reference to pointer to X

 pushX( new X ); // you cannot bind a temporary returned by `new X` to lvalue reference `t`

It could be easier to understand if you use simple type like int:

int function_returns_int();

void push_int( int &ri );


push_int( function_returns_int() ); // compilation error, function_returns_int() returns temporary

You can make your code compile if you store pointer in a variable and make it non-temporary:

int main()    // main() must have return type int not void
{
   int x = 3;
   int &y = x;
   push(x);
   X *px = new X;
   push(px);
   push(y);
   delete px;
}

but most probably you chosen wrong type for the argument.

Details about references and why you can pass int &y and why t would not be a reference to reference in this case you can find here

Note: your code if you make it compile (changing type of t to const reference for example) would lead to memory leak, but that is out of scope of your question

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  • Just one more question if I may: why if I change it to push (*(new X)) it does compile? I just deference the pointer but isn't it still a r-value/temporarily value?
    – Sonya gold
    May 4, 2020 at 22:33
  • No, when you dereference the pointer, result of dereference is l-value despite the fact that pointer itself is prvalue, that's how language works. It tries to help you to avoid mistakes but there are a lot of ways to shoot yourself into foot.
    – Slava
    May 5, 2020 at 0:06

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