If you have something like this:
block = new int;
Foo& operator =(const Foo&);
And subsequently do this:
Foo* foo = new Foo;
Then yes, you're leaking memory. The dynamic block in your Foo object is never released. You can address this with a destructor that releases it. (of source, you need to declare the destructor in the class declaration as well):
delete  block;
I would advise you to do two things
- Count the delete's and the new's. if they're not the same, thats generally a problem.
- Read this informative document on dynamic pointer and memory usage with C++.
Following #2, btw, might give you an object that looks similar to this:
Foo() // note: default-construction of `block`
// note: default *destructor* will clean up member variables
// by firing their destructors for you. in this case the destructor
// for our 'block' member is a std::array that knows how to self-clean.
// note: we no longer have to hide or implement copy construction and
// assignment operator functionality. The default implementation of
// these properly member-copy and member-assign respectively.
And a usage (one of many possibilities) like this:
std::unique_ptr<Foo> foo(new Foo);
Please regard the notes in the source of the last example. There is a tremendous weight lifted off your memory-management shoulders by using classes that practice self-managed members. In lifting that weight, so too goes the per-chance likelihood of introducing bugs related to it, like memory leaks, shallow-copy perils, etc.