well i had another question regarding files: what is the use of ios::binary? I learnt that it ignores all /n and endline, so what is the use? I was taught that it made file transfer efficient (in school i was taught that), but here i learnt that its to ignore all endlines.
@samjoe ios::binary normally means "pass the data through without modification". The alternative (text mode) means "do what's necessary to make this look like a text file is expected to on this system." On Unix there's no difference between the two. On Windows, text mode means a "\r\n" in the file becomes a new-line in the stream you read (and likewise a new-line becomes a "\r\n" when you write).
If you get it wrong and read bytes that should have been text you will, for example, get to see line endings that are "\r\n" when it should be "\n". When you read bytes as text you will eventually encounter a byte that cannot be interpreted as text and then the text is wrong or truncated.
@samjoe Text files can be opened and meaningfully edited using text editors, binary files cannot. Binary files tend to be shorter and more efficient, so sometimes you still want that.
@ParthKohli A is not an address. A is an array. It does happen that when you use A in an expression, it will usually evaluate to the address of the first element of the array--but not always, so don't make the mistake of saying it is an address, or it'll mislead you (badly in some cases).
@ParthKohli Yes, as I said, when you use it in an expression (which would include cout << A;) it'll typically evaluate to the address. That's not always the case though. For example, if you use cout << sizeof(A); you'll get the size of the whole array, not the size of an address.
@samjoe be careful that you can store binary data in text (base64-encoded for example) and text in binary data (when you .zip a text file), so you need to look at the format of the file, not the content
@ParthKohli In C and C++, all arrays are one-dimensional. Something like int array[10][10] does not create a 2D array. It creates an array of arrays. That is, a one dimensional array, each element of which is itself a one dimensional array.
@ParthKohli int taking only two bytes is pretty much a historical curiosity. On most modern implementations it'll take at least 4 bytes (but otherwise you're correct).
@ParthKohli No. The type of A is "array of (arrays of two ints)". Therefore, *A is an array of two ints. In most expressions, that'll evaluate to the address of the beginning of that array (just like the name of any other array does). Therefore, if you do cout *A; you'll get an address (and that address will be numerically the same as if you had just done cout << A;, but it has a different type).
@ParthKohli It is, so A and *A are both the same address, just with different types attached. You can also use &A, which will also yield the same address, but with yet a different type (that type would be pointer to array of arrays of 2 ints).
@ParthKohli A is array of arrays of two ints So, A +1 is A incremented by the size of an array of 2 ints. *(A + 1 is the element at that address (and in this case, that element has type array of two ints).
@samjoe You've done well. Seriously, probably no more than 5% of C++ programmers ever figure out this corner of the language this well. The snippet I just posted is way beyond what any normal programmer ever needs to know.
@ParthKohli I only make the distinction in this case, because we end up dealing with the same addresses, but with different levels of indirection a lot in this code. So, this first one is an array of pointers to char.
From there, you pretty much just walk through line by line, and figure out what's being manipulated. ++cpp will make cpp point at cp[1]. ++*(cpp+2) would increment an element of cp, and so on.
@TheQuantumPhysicist Not really. Once upon a time, a guy named Don Lancaster wrote a book on circuits that included "cookbook" in the name. It was pretty well written, so it sold pretty well. Quite a few others then figured they could sell their (often inferior) technical books a little more easily if they stuck "cookbook" in the name as well.
@ParthKohli It's pointing to the first letter (but things that deal with C-style strings will typically assume that a pointer to char means a string, so they'll look at the whole string, not just the first character).
For example, when you do printf("%s", c[0]); you're just passing a pointer to the E, but it'll walk through and print out the whole string.
@exitcode depends very much on what you want to learn in game programming. For example, if you wanna program with Unreal Engine, you don't need any specific book on game programming
@JerryCoffin So what does it mean to point at an entire array in general? Like in the two-dimensional array case, when I did cout << A, I think it meant the address of the first two-int array (first row).
@ParthKohli Mostly it affects how math will work. When you have a pointer to T, then math on that pointer is done in terms of T. For example, T *t; cout << (void *)t << " " << (void *)(t+1); will print out the address of t, then the address of t + the size of a T.
which do you think would be better for uni, pretty in depth c++ knowledge, or just accelerated c++ stuff - basic and then dabbling in some other languages like rust, or functional programming
@TheQuantumPhysicist principals and practices or the c++ programming language
@ParthKohli yes. The address is typically the first element. But there's nothing that prevents pointing to any other element. For example, new will return the address of the first element if you allocate an array
@exitcode It's a taste thing. I left academia some time ago, and I learned a handful of languages. Choose whatever you like and plan your future. Btw, I don't know what accelerated C++ is
@TheQuantumPhysicist It's a book. IMO, it was clearly the best in its day, though it was written about C++98/03, so it's now becoming somewhat dated (but there's nothing newer that covers the same ground nearly as well).
does it make sense to buy books for specific game libraries and stuff if I want to do stuff pretty much from scratch and I'm a semi beginner or should I just use documentation and googling for structure?
Okay, let me put it this way. I'm going to take a one-dimensional array for reference. A[2] = {1, 2}. Here, A is a pointer to the first element, which is 1. Similarly, A[2][2] = {{1, 2}, {3, 4}}. Here, A is the pointer to the first element, which is {1, 2}. Then A stores to address of what exactly? Surely it stores the address of the first element of {1, 2}, which is 1.
But in that case, if A stores the address of 1, then *A = 1.
A still stores the address of the first element, but its type is "pointer of pointer", so you can't dereference it and get a result. Try to force-cast it to an integer after dereferencing it and see what you'll get
@ParthKohli A evaluates to the address of the first element of A, which has type "array of two ints". So, if you try to print it out, based on its type it'll be printed out as a pointer. If you dereference that pointer, you'll get the same address, but now with the type "int", so if you print it out you'll get 1 (i.e., the value of the int at that location).
@exitcode Read Stroustrup's books first (Programming Principles and Practice in C++, The C++ Programming Language), then read the SFML site tutorials. Then see if you still want to read that book.
@exitcode That tightly couples PhysicsComponent to PlayerPhysicsComponent and you will get into trouble because you don't want all the things of PhysicsComponent in PlayerPhysicsComponent and the only PhysicsComponent that makes sense is an empty class and then you might as well not have that.
The main point of an ECS is to not have inheritance.
@exitcode no, it generally only has an int id; in it and is never inherited from
@exitcode you are supposed to make a CollisionComponent + MovementComponent or something like that, which lets you mix and match and allows you to have collision without movement and movement without collision or neither or both, which inheritance cannot give you
@nwp all the games I've looked at have an entity base class with position and rotation or something and then a sub class for each moving thing in the game
So that means if you have a game that follows ECS with a load of entities, those entities all have their own classes with velocity, rotation etc members and inherit from nothing
but what if you wanted to pass an entity to a method without specifying what type of entity it is
you store a list of all the types or an enum or something?
@exitcode seems correct, neither entities not components inherit from anything, he just uses inheritance to specialize some components, but that has nothing to do with the ECS, just being lazy efficiently reusing code
although an ECS doesn't really benefit much here because pong is easy enough to make with class Paddle; + class Ball;, but once you go into MMOs with tons of objects of various behaviors it starts becoming unfeasable to create a class for each thing.
@exitcode then you are probably doing it wrong, there should not be 100 different physical behaviors
@exitcode no, you reuse components. The components are not that many, and mostly the same every time, but you will probably have 100 different combinations of components for your 100 objects.
and maybe it makes sense to do giant.set<SoloAI>(); and skeleton.set<GroupAI>(); to make them behave differently, or maybe one AI component handles both
you have a system that says for (auto &entity : get_entities<Speed, Position, Direction>()) and then updates the Position depending on the other components
and another system that gets all the AI components and sets their strategies or something, and another system that gets all the ThreeDModel's and renders them to the screen
looking at what others did, then deciding that it is all crap and making my own and then understanding why they did it that way is what happens with me, which is the most fun but probably not the most efficient
I feel like although I read accelerated c++ twice now, I don't know everything in it but I can't think of an interesting way to put what's in the book into practice
Because the book is literally just a student grading program that you add to repeatedly which isn't particularly interesting
well, you can try making your ECS instead. Getting Entity e; e.add<int>(42); std::cout << e.get<int>(); to compile and work correctly is not easy the first time.
I must say making an ECS was the most fun code I ever wrote.
and then you can think about if you want to try to make it efficient or just build stuff with it and go from there
