The only way to minimize pointer errors is to use the right pointer types. And that's types, plural.
Shared pointers are not a silver bullet. They become memory leaks as soon when you have cyclical references (and if plan to use them everywhere, those will show up pretty quickly)
If you want error-free C++ applications, you have to work for it. You have to understand your application. You have to understand the ownership semantics of different objects. Shared pointers just give you shared ownership, which is generally a decent lowest denominator. Everything else can be replaced by shared ownership and it'll work, sort of.
But the default case is that an object is owned by one other entity. It is owned by a function, and should be destroyed when that function returns, or it is owned by a class, or whatever else. Often, you don't need pointers at all. the object is stored by value in a
std::vector, perhaps. Or it is just a local variable or a class member. If it is a pointer, it'll often be better expressed by a
scoped_ptr or perhaps one which allows transfer of ownership (
shared_ptr is what you might fall back to when you can give no guarantees about the lifetime or ownership of an object. But when you use that, you also need to use
weak_ptr to break cycles.
Really, a better approach is to avoid pointers as much as at all possible. When you do need a pointer, use one which has the most specific ownership semantics possible (prefer
scoped_ptr, which doesn't allow transfer of ownership at all, then if you need it, fall back to one which allows you to move ownership, such as
unique_ptr, and only as a last resort should you use
shared_ptr, which allows you to share ownership freely among any number of clients.
There's no magic wand you can wave to make your C++ code "just work". The only way to achieve that is to write good solid C++ code. And you do that by knowing, and using, the tools at your disposal, not by pretending that "hey,
shared_ptr is just like a garbage collector, isn't it? I can just ignore all questions of object lifetime or memory leaks if I use it".