@SSight3 If std::list is fundamentally different from your linked list class, then your linked list class is wrong. (No, I'm not exaggerating. std::list is the reference for how linked lists in C++ work.)
@Als I am obliged to challenge the form of tradition. It's good programming practice given any bugs or failures in the code will result in a huge mess. I've redesigned it numerous times and have learnt much in the process.
@SSight3: If you are trying to do so for academic purposes or for just experience or learning, I would say that is fine, but if you are trying to reinvent the wheel I am afraid by the time you ride a car people are going to be flying in spaceships.
@sbi Not wrong. As edward de bono notes with lateral thinking, it is merely an alternative solution. It does not appear to have an append, find or remove element to it.
Really, if your list class does not behave like std::list, I won't use it. And if it does, I don't have any reason to use your list, which is far more likely to contain bugs than the standard one. Did I mention writing a linked list in C++ is a futile exercise?
what I'm trying to say here is that your code is buggy as hell, breaks with the conventions that users of it are going to expect, and that there is zero reason why anyone would ever want to use it.
C++ inherited arrays from C where they are used virtually everywhere. C++ provides abstractions that are easier to use and less error-prone (std::vector<T> since C++98 and std::array<T, n> since C++11), so the need for arrays does not arise quite as often as it does in C. However, whe...
@SSight3 Here's the only meaningful advice you can get then: start out with using std::list, and learn how it works and explore its interface fully (including the non-member functions). Then, when you know exactly what it does and how it does it, see if you can think of any improvements that'd justify writing a new list class
@Als Experience. My first version ages back took over 2,000 lines of code and it did not work at all. 4 versions later and it's 259 lines for node+iterator, and about 500 (it's incomplete) for actual interface. I want to master the coding to such a level that I could implement node, iterator and list in less than 500 lines.
@Als If you're asking what role it will fulfill? Interconnected network of other classes that will rely on it for file writing, HTTP access, stringtokenisation operations etc etc.
@SSight3: Okay, that is good learning experience. But the if you are claiming(I don't know if you are) your link list implementation is better in anyway than std::list then I will be compelled to say it is not true.
@FredOverflow Quit on first error. Maintain the state of the list until function is completed (EG if it quits same as previous state). I've toyed with the idea of atomic accesses. Error reporting (line, file, class, function, reason) on unexpected behaviour.
@SSight3: No I am afraid.But you can feel free to re-invent the wheel, build the bi-cycle,then the car and so on..just most of us would be riding pretty in our jets by the time you are done with the wheel.And then you can still say your wheel is better than what ours was,but then it wouldn't matter really,because we would be flying and you would be riding.
@Als The mastery isn't of the wheel itself, but the making of the wheel. My coding has progressed from 2,000 lines to less than 800. If I can write a list in less than 500 without bugs... I think I can skip the plane and go straight for the rocket ship.
@SSight3: As i said feel free too, I am not interested in the conversation of any lists anymore, Period. unless someone's thinking of paying for my Amazon wishlist, ofcourse.
I have managed to establish a connection between the client and server. But I'm having trouble understand the difference between SOCK_STREAM and SOCK_DGRAM.
@LewsTherin They are packets, but TCP establishes stream with the other computer, UDP broadcasts irregardless of whether or not the other machine is receiving.
@LewsTherin also, TCP is connection oriented, where as UDP is not. That means before transporting TCP data, you make a connection from a client to a server. In UDP you can just start sending packets
@LewsTherin there are no packets in TCP from the users perspective (on the actual network there are packets, but you don't have to care about those). When you read and write to a TCP connection, you just get data
@LewsTherin that is another difference. TCP is reliable, the protocol has stuff built in so that packets that are lost get retransmitted and stuff goes in the right order
Was C the first programming language to use the term lvalue, or does it go further back? Note that I'm not talking about the general concept of "something on the left-hand side of an assignment statement" (which it has ceased to mean in C++ a long time ago). You can find that in pretty much any i...
@LewsTherin UDP is not reliable, if a packet get's lost you have no way to know. Protocols built on top of UDP that need reliability, implement their own ways to ensure delivery
