Callling object constructor/destructor with a custom allocator

Question

I have been looking into custom allocators and I quite often see them using some kind of function to allocate memory. For testing purposes and further educate my self, I tried to make a "simple" example of doing so. However, there is one fundamental thing I am understand on how to do. One of the key differences in malloc vs new is that with new the constructor is called. What if I wanted to write my own allocator that was essentially replacing new, how would I get the constructor to be called when using malloc?

I understand that on classes I can overload new and delete for the class, so I suppose a big part of the question is, how is new calling the objects constructor during allocation? Similarly, I am interested in how delete is calling the destructor.

I created a sample test code that I was hoping to have the SomeClass constructor called during allocation, but I don't see how.

#include <malloc.h>

void* SomeAllocationFunction(size_t size) {
    return malloc(size);
}

class SomeClass
{
public:
    SomeClass() {
        int con = 1000;
    }

    ~SomeClass() {
        int des = 80;
    }
};

int main(void){
    SomeClass* t = (SomeClass*)SomeAllocationFunction(sizeof(SomeClass));
    return 0;
}

(As a note, I know I can just use new. However, for the purposes of learning I am trying to create a custom allocator that does not just call new or placement new).

Answer 1

In essence, when you use a new expression like: T *t = new T;, it's roughly equivalent to:

void *temp = operator new(sizeof(T));
T *t = new(temp) T;

So, first it allocates some raw memory using the allocation function, then it constructs an object in that memory. Likewise, when you use a delete expression like: delete t;, it's roughly equivalent to:

t->~T();
operator delete(t);

So, if you overload new and delete for a particular class:

class T { 
    int data; 
public:
    // I've made these static explicitly, but they'll be static even if you don't.
    static void *operator new(size_t size) { 
        return malloc(size);
    }
    static void operator delete(void *block) { 
        free(block);
    }
};

Then when you use a new expression, it'll invoke the class' operator new to allocate the memory, and that will call malloc, so T *t = new T(); will end up allocating memory via malloc (and likewise, when you delete it, it'll use operator delete, which will call free).

At least as the term is normally used, an Allocator is quite similar, except that it's used by a container instead of other code. It also encapsulates the allocation function and deletion function into a class, so when you pass one to the container, you only have to pass one object, and there's little chance of an allocation and delete function getting mismatched.

Ignoring, for the moment, the details about what names are used for things, the Allocator class in the standard library mostly does the same, so with a little renaming of the functions in the T class above, you'd be about half done writing a standard allocator. To go with the allocation and deletion, it has a function to rebind some memory (change a block of memory to another type), create an object in place (basically just a wrapper around a placement new) and destroy an object (again, trivial wrapper around destructor invocation). Of course, it uses operator new and operator delete instead of malloc and free like I've used above.

Answer 2

With a placement new you can pass an already allocated memory location to the new operator. Then new will construct the object at the given place without doing an allocation on itself.

Edit:

This is how it could be implemented:

int main(void){
    // get memory
    void * mem_t = SomeAllocationFunction(sizeof(SomeClass));
    // construct instance
    SomeClass* t = new(mem_t) SomeClass;

    // more code

    // clean up instance
    t->~SomeClass();
    return 0;
}

Answer 3

To get the constructor to be called you use placement new(Note you can not override placement new). For delete and all the gotchas well the FAQ does a good job of explaining it.