The code below is an example that was used to demonstrate some logic in C++
int *p = new int;
*p = 5;
cout << *p << endl;
delete p;
In this particular example, there is no reason for dynamic allocation (which is what new
provides).
It looks like a toy example to show how you would dynamically allocate, set, print, then delete an int
.
In reality, you wouldn't do this unless you had a more complex type to create, or you really needed the int
to be shared between scopes for some reason (though, even then, smart pointers are nowadays preferred).
Refer to your book for more information on dynamic allocation and when it is (and isn't) useful.
new
operator. Which as you say is distinct from the deallocation function which is namedoperator new()
int
) from the global store (typically the heap), assign it a value, print it out, and then delete the object (returning the allocated memory back to the global store).new
is an operator, along withnew[]
,co_await
,noexcept
,sizeof
, and a whole host of operators that do not appear on the lexer's operator-or-punctuator list.