@CatPlusPlus I would consider it to be messed up, and when I encounter messed up code, the first thing I do is give up on the assumption that the author was sane. And if you can't assume a sane author, then the code might do anything
> According to some, abusing + for string concatenation is a violation, but it has by now become well established praxis, so that it seems natural. [...] putting it into the std lib basically set this in stone. The same goes for abusing << and >> for IO, BTW. Why would left-shifting be the obvious output operation? Because we all learned about it when we saw our first "Hello, world!" application. And for no other reason. sbi Dec 12 '10 at 19:56
@CatPlusPlus Since when is "shorter code" a goal in itself?
@CatPlusPlus Yes, it is if you or I invent it. Since it's been put into streams >25 years ago, and put into the C++ std lib, it's now established praxis. It's almost the same with boost. What they do does become established praxis. What you or I do, does not become established practice, which is why you and I should stick to rule #1.
@CatPlusPlus well, technically, any operator overload you define can be documented. Documented != clear to the reader. It's clear to the author, and allows him to defer explanation to that documentation if someone misunderstands.
@CatPlusPlus The best documentation for an appending function is to name it append(). Naming it operator+() and writing into its documentation that it appends is inferior.
especially for a vector, I'd say + or += are dangerous, because a vector also has a well-known mathematical definition, in which addition certainly does not mean "append"
heck, you could make it so that you can do some_vec.append(5).append(6).append(7), but then again, perhaps the stream operator like Qt overloads is better suited for appending (!)
@CatPlusPlus Yeah, I know. Everybody who's had a look into boost expect incomprehensible code to magically compile when they see an #include <boost/...> at the top of a source file.
As I said, if boost does this, it's fine. If you do so, it's not.
Heck, if the STL came with overloaded operators out of the box, we'd all assume += to add an entry to a std::deque. I'm just not sure why some believe that the world would be a better place then.
@Xeo You and I and the @Cat will very likely not establish any new convention in operator overloading. All we would achieve is to produce a piece of confusing code. If you want to establish a new convention, lobby for it on the boost mailing list, fight it through, implement it, and have it accepted into boost.
@CatPlusPlus but it's in a library which also breaks other guidelines (like, overloading the comma operator), and which isn't widely used, and is likely to be rendered entirely superfluous with C++11 initializer lists
@CatPlusPlus No. Any lib that's used a lot can do that. I am sure that, for example, Qt has established conventions. But even they don't have the necessary market penetration power to make me sure they did. So boost and the std lib are the only two examples I can think of.
I wonder why there is no void vector<T>::push_back(initializer_list<T>) :s. Would solve the discussion about += for containers: vec.push_back({1,2,3,4,5,6});
Well, don't mind me, I'm being pretty delirious thanks to my cold
Also, uniform initialization must be one hell for a compiler writer to implement. Looking all over the place to check what exactly has to be called.. ctor, ctor with init list, aggregate initialization, etc etc
The Clang devs said they would be embarassed not to have initializer list stuff by 3.1 release, so wait another half year and you've got readable code :)
@rubenvb Oh, yeah, decltype fucks up on dependent names it seems
@Maxpm Wtf?
Oh right, @rubenvb, do you know if the SFINAE employed by __invokable in libc++ is just using a fluke of clang or if it's legal C++11 SFINAE? See here for more information.
I suppose with global inline operator new and inline operator delete overrides, such optimization could happen, but they would need to be implemented simply enough for the optimizer to see through the expression's pure-functional semantics.
Circular lists are well and good, but why bother? The allocations will quickly be randomized anyway. Just use LIFO, allocate the most recent deallocation.
@KerrekSB Returning "stale" memory is certainly bad for temporal locality. Trying to keep things in the same order, which is presumably your intent, is not a guarantee of spatial locality, nor is spatial locality usually as important.
Say typedef std::array<std::array<std::array<bool, row>, col>, dir> ArrayType;, and then ArrayType visited{}; will value-initialize everything (to false).
Well anyway, use a std::vector< bool >… if you have a very large number of nodes, then it will improve memory efficiency by using bit-packing. Arrays with variable dimensions are a C feature that is nonstandard and not well supported in C++.
Never fall into a defeatist attitude of "I'm a beginner, it's impossible for me to learn new things." All of life is about new things and we're all beginners in one way or another.
In C++11, though, (and probably not with the compiler you're using) the syntax you suggest is valid. It doesn't hurt to be explicit about initialization, after all :v)
@Potatoswatter I'd rather say that element (i, j, k) is visited[i + j * col + k * col * dir] or something like that. You have to get the ranges right... cup of coffee, as I said.
@Potatoswatter Wait. No. Just logically the correct expression depends on what i, j and k are. Once you've understood that, you can fiddle with the direction of the strides to optimize performance.
@KerrekSB Meh. I've done too much of this. Yes, it sounds like premature optimization, but going through the program and adjusting all the subscript calls is a major PITA… better to at least take an initial guess.
But seriously, no program is too small for std::vector. It's quite fundamental and could also be the basis of your stack. (Which should be std::stack from <stack>, by the way.)
You're assuming it's complicated because you haven't used it. But as it is, the original declaration bool visited[rowSize][colSize][dirNum] is illegal, so you could lose homework points just for that, in an ideal school.
@mwmnj And vector is dead simple. And std::stack supports both linked lists and arrays and a kind of in-between structure called a deque.
vector is the simplest full-fledged sequence container, and array is the simplest container overall, or just a very flexible aggregate type, depending how you look at it.
@rubenvb The organization of the sub-clauses doesn't mean much. array is not a Sequence because it doesn't support insertion or deletion, or range initialization or …
@Potatoswatter 23.3.1/1: The headers <array>, <deque>, <forward_list>, <list>, and <vector> define template classes that meet the requirements for sequence containers
perhaps there's a hidden sequence container defined in <array>, like a C++ easter egg, but I doubt it
@Potatoswatter An aggregate is an array or a class (Clause 9) with no user-provided constructors (12.1), no brace-or-equal-initializers for non-static data members (9.2), no private or protected non-static data members (Clause 11),no base classes (Clause 10), and no virtual functions (10.3).