At very first: Have a look at the rule of three, it is an absolute must go in given case. Consider, too, the rule of five, while not mandatory, you'll leave out a great optimisation opportunity...
The destructor would now
delete the array (leaving this part to you...), a copy constructor would then do exactly that: (deep) copy the data:
A::A(A const& other)
: a(other.a), b(new int) // assuming you have a fixed size for those arrays;
// better: introduce a constant for to avoid magic
// numbers in code!
// you created a new array, but yet need to fill it with the others value
std::copy(other.b, other.b + 20, b);
OK, first step. Using the copy and swap idiom, the assignment operator gets pretty simple:
A& operator=(A other) // YES, no reference! This will invoke the copy (or move!)
// constructor of your class!
swap(*this, other); // you'll need to implement it yet!
// at this point, the destructor of other will clean up data that was potentially
// contained in *this before...
Finally the move constructor:
: a(0), b(nullptr)
// again swapping??? well, sure, you want the data from other to be contained
// in *this, and we want to leave other in some kind of valid state, which the
// nullptr is fine for (it's fine to delete a null pointer, so you don't even
// need to check in the destructor...)
And now up to you:
class B analogously...
Side note: you get away a bit cheaper by use of a smart pointer (
std::unique_ptr), it will allow you to default destructor and move constructor + assignment operator, solely copy constructor and assignment operator need to be implemented explicitly (
std::unique_ptr is not copiable...).