My C++ class has a destructor that tries to delete std::vector and std::array instance variables.

#include <iostream>
#include <vector>
#include <array>

int main()
    std::array<int, 3> foo;
    std::vector< std::array<float, 4> > vertices;

    foo[0] = 1;
    foo[1] = 2;
    foo[2] = 3;
    std::cout << foo[0] << std::endl;
    delete foo;
    delete vertices;

    return 0;

I'm not sure how to properly free up the memory - how come I can't delete those variables?

clang++ -std=c++11 -stdlib=libc++ -Weverything ccc.cpp 
ccc.cpp:14:2: error: cannot delete expression of type 'std::array<int, 3>'
        delete foo;
        ^      ~~~
ccc.cpp:15:2: error: cannot delete expression of type 'std::vector<std::array<float, 4>
        delete vertices;
        ^      ~~~~~~~~
ccc.cpp:18:2: warning: C++98 requires newline at end of file [-Wc++98-compat-pedantic]
  • 7
    You didn't allocate anything with new, why do you feel the urge to deallocate something with delete? These are automatic variables - they are destroyed automatically when they go out of scope. – Igor Tandetnik Sep 22 '13 at 4:03
  • even if they are member instance variables in a class? – ejang Sep 22 '13 at 4:06
  • Yes, members of a class don't have a hidden new attached. – chris Sep 22 '13 at 4:07
  • They are not class members in the code you show. Anyway, the lifetime of non-static class members matches that of the containing class instance. – Igor Tandetnik Sep 22 '13 at 4:10
  • @ejang: Firstly, what happens "in a class" is none of your business, to put it bluntly. The class itself will take care of everything, if the class is properly designed. Secondly, std::array does not allocate any memory dynamically "in a class". std::vector does, but again, it is not for you to worry about. – AnT Sep 22 '13 at 5:07
up vote 10 down vote accepted

Delete these variables? The only "variables" you should delete are the ones you allocated by new. Did you allocate anything by new in this code? No. So, stop trying to delete anything.

Objects foo and vertices are local objects with automatic storage duration. The memory for these objects is allocated automatically and freed automatically. You cannot do it yourself. This is completely outside of your control.

If you want to control memory allocation manually, you have to create these objects dynamically, using new. For example

std::array<int, 3> *foo = new std::array<int, 3>();
(*foo)[0] = 1;
(*foo)[1] = 2;
(*foo)[2] = 3;
delete foo;

The above will work. But there's no real reason to involve dynamic memory in your example. It works perfectly fine as is, with automatic objects. Just stop trying to delete them.

delete expects a pointer as argument. When you will allocate objects through new, you will access these objects through pointers. These pointers is what you will later pass to delete to destroy such objects. In this code none of this is applicable.

  • What if the content of the std::array is an object pointer. Like "std::array<Object*, 10> myArray1;".. If it was "Object *myArray2[10];", then I would be able to call "delete []myArray2;", and it would also call destructor of the Object instances. Can I call "delete []myArray1;" ? – phoad Oct 12 '16 at 7:34
  • @phoad: I'm not sure I understand your comment. If myArray2 was declared as Object *myArray2[10], then you would not be able to do delete[] myArray2. – AnT Oct 12 '16 at 18:37
  • I have remembered as "delete[] arr;" would call destructor of each object in the "arr" and deallocate them.[] "operator delete[] is a regular function that can be called explicitly just as any other function. But in C++, delete[] is an operator with a very specific behavior: An expression with the delete[] operator, first calls the appropriate destructors for each element in the array (if these are of a class type), and then calls an array deallocation function.". Should it be Object arr[] = new Object[10], instead of Object* arr[] ? – phoad Nov 17 '16 at 6:40

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