You have several options available, starting with the easiest:
struct planet *planet_member; // a pointer!
struct star star_member;
and to create a galaxy:
g.number_of_planets = some_random_value
g.planet_member = malloc (sizeof (planet) * g.number_of_planets);
for (i = 0 ; i < g.number_of_planets ; ++i)
g.planet_member [i].x = something
g.planet_member [i].y = something
g.planet_member [i].z = something
// and so on for each planet
Don't forget, you need to
free the memory you
malloc, otherwise you'll get a memory leak.
You could use more complex data structures, like a linked list. So, your galaxy struct has a pointer to the first and last planet in the list. Each planet has a pointer to the next and previous planet in the list. So starting with the first planet and reading the next planet pointer you can process each planet in the list. Look up linked list on Google to find more information about it. It's a lot more work, and work that's been done many times already, which leads to....
...progressing to C++ where there's a standard library that can do all the fiddly housekeeping of linked lists and other data types for you. So, your structure would become:
std::vector <struct planet> planets; // vector is an array like type
std::list <star> stars; // list is a linked list
But, you could go further still and make galaxy a C++ class so that when you create one, it automatically creates the planets and stars in it, and when you get free it, the class automatically frees all the planets and stars it holds.