So, why don't I implement a less
general, but easier to use version?
Because you can't. Because whatever else you might say about C++, it is not a simple language, and if you're not already very good at it, your linked list implementation will be buggy.
Honestly, your choice is simple:
Learn C++, or don't use it. Yes, C++ is commonly used for graphics, but Java has OpenGL libraries too. So does C#, Python and virtually every other language. Or C. You don't have to use C++.
But if you do use it, learn it and use it properly.
If you want immutable strings, create your string as const.
And regardless of its underlying implementation, the STL is remarkably simple to use.
C++ compiler errors can be read, but it takes a bit of practice. But more importantly, they are not exclusive to STL code. You'll encounter them no matter what you do, and which libraries you use. So get used to them. And if you're getting used to them anyway, you might as well use STL too.
Apart from that, a few other disadvantages:
- No one else will understand your code. If you ask a question on SO about std::vector, or bidirectional iterators, everyone who's reasonably familiar with c++ can answer. If you ask abut My::CustomLinkedList, no one can help you. Which is unfortunate, because rolling your own also means that there will be more bugs to ask for help about.
- You're trying to cure the symptom, rather than the cause. The problem is that you don't understand C++. STL is just a symptom of that. Avoiding STL won't magically make your C++ code work better.
- The compiler errors. Yes, they're nasty to read, but they're there. A lot of work in the STL has gone into ensuring that wrong use will trigger compiler errors in most cases. In C++ it's very easy to make code that compiles, but doesn't work. Or seems to work. Or works on my computer, but fails mysteriously elsewhere. Your own linked list would almost certainly move more errors to runtime, where they'd go undetected for a while, and be much harder to track down.
- And once again, it will be buggy. Trust me. I've seen damn good C++ programmers write a linked list in C++ only to uncover bug after bug, in obscure border cases. And C++ is all border cases. Will your linked list handle exception safety correctly? Will it guarantee that everything is in a consistent state if creating a new node (and thereby calling the object type's constructor) throws an exception? That it won't leak memory, that all the appropriate destructors will be called? Will it be as type-safe? Will it be as performant? There are a lot of headaches to deal with when writing container classes in C++.
- You're missing out on one of the most powerful and flexible libraries in existence, in any language. The STL can do a lot that would be a pain even with Java's giant bloated class library. C++ is hard enough already, no need to throw away the few advantages it offers.
I don't care about allocators,
iterators and the like
Allocators can be safely ignored. You pretty much don't even need to know that they exist. Iterators are brilliant though, and figuring them out would save you a lot of headaches. There are only three concepts you need to understand to use STL effectively:
- Containers: You already know about these. vectors, linked lists, maps, sets, queues and so on.
- Iterators: Abstractions that let you navigate a container (or subsets of a container, or any other sequence of value, in memory, on disk in the form of streams, or computed on the fly).
- Algorithms: Common algorithms that work on any pair of iterators. You have sort, for_each, find, copy and many others.
Yes, the STL is small compared to Java's library, but it packs a surprising amount of power when you combine the above 3 concepts. There's a bit of a learning curve, because it is an unusual library. But if you're going to spend more than a day or two with C++, it's worth learning properly.
And no, I'm not following your answer format, because I thought actually giving you a detailed answer would be more helpful. ;)
It'd be tempting to say that an advantage of rolling your own is that you'd learn more of the language, and maybe even why the STL is one of its saving graces.. But I'm not really convinced it's true. It might work, but it can backfire too.
As I said above, it's easy to write C++ code that seems to work. And when it stops working, it's easy to rearrange a few things, like the declaration order of variables, or insert a bit of padding in a class, to make it seemingly work again. What would you learn from that? Would that teach you how to write better C++? Perhaps. But most likely, it'd just teach you that "C++ sucks". Would it teach you how to use the STL? Definitely not.
A more useful approach might be utilizing the awesome power of StackOverflow in learning STL the right way. :)