Oh um, I need an operation to convert optional to either T or throw user-specified exception. Something that has the semantics of o ? *o : throw oh_noes {}; and can work for rvalues. What do I call it?
Ah, the problem if I decide to pass in the value to throw is that an exception is constructed every time. But if I don't, then it's not thrown directly from the calling code. There's no way to win so I guess I'll provide two overloads.
hi! I have a question about string encoding in c++, I noticed that if I changed the character encoding of my source code file, the integer value of some character changes, and if the encoding is not (ASCII or utf-8) something like utf-16 it doesn't compile.
More seriously it adds Boost.Exception specific stuff, and also __LINE__, __FILE__, __func__ info.
Hah, first workaround attempted was BOOST_THROW_EXCEPTION(e), throw but that's a comma expression so it doesn't work either. Guess I'mma try throw (BOOST_THROW_EXCEPTION(e), 0) now!
I'm trying to compile a UTF-16BE C++ source file in g++ with -finput-charset compiler option but I'm always getting a bunch of errors. More details follow.
My environment(in CentOS Linux):
g++: 4.1.2
iconv: 2.5
Linux language(in Terminal): LANG="en_US.UTF-8"
My sample source file(stored in ...
I'm having so much trouble with names. I have range::move(r) which sprinkles std::move_iterator on top, and is thus unrelated to the algorithm; I have std::vector<T> v = range::copy(r); to 'adapt' ranges to types constructible from iterator pairs but that's probably a terrible name.
@DeadMG I'm thinking of reserving 'output iterator/range' to mean 'output iterator/range, and no better' exclusively. 'Mutable whatever iterator/range' is in fact Standard terminology for the other ones.
I must be the only one with the pretence that this could be useful for more than just containers though lol, Martinho not only calls it materialize but has a version that accepts template template parameters.
A range operation like zip composes/embeds its arguments and at the end of the day begin/end produce big-ass ginormous iterators, such that for(auto&& item: result) ... is the desired traversal in one go.
Depends. I was wondering about output iterators because that's one of the last hole to plug: spare the user from the need to e.g. write for(auto&& item: result) in the first place.
And I guess removing iterators altogether in favour of actual, honest Andrei-style ranges can be transparent. @R.MartinhoFernandes We can meet in the middle!
@DeadMG Let me measure up some Boost.Range iterators.
urgh...my search tree is stored in nodes that contain a vector of nodes etc etc...and there's some pointers to the elements in these vectors kept in someplaces (the vector sizes never change once they are built, so those should stay fine...right?) ...and we delete some vectors once the search tree has chosen a different path.
yet, for some reason, some pointers to these nodes appear invalid - and the fault seems to be our deleting
but I can't find why deleting unused nodes deletes nodes we do still use ._.
@DeadMG Let me paint the situation better: producing iterators is not a goal in and of itself. However as it so happens the ranges I have right now can be implemented naturally on top of iterators -- the 'natural' being the important part here: there's a lot of things to keep track of, and having the implementation as simple as possible is of value to me. What i'm really investigating is the potential for the interface, not the details.
@LucDanton Ah, I think you're misunderstanding me. I'm not talking about implementing ranges on top of iterators, because that's simple. I'm talking about implementing iterators on top of ranges- that is, for some arbitrary range r that meets your range concepts, producing iterators which act as iterators into that range for arbitrary iterator algorithms. If that's what you meant too then ignore what I just said.
@DeadMG Right now it's probably ill-advised to use iterator-oriented algorithms (and data structures, and programs really). Not because of the library or its implementation, but thanks to it (with tongue in cheek): one easily ends up with ginormous iterators because the library makes it easy and convenient to compose. But what you end up is what you want anyway!
so ultimately, I think what I'm saying is that either you address the pitfalls of iterators- i.e., no ginormous sizes due to composition, permitting rvalues from non-input, etc, or you don't offer backwards compat with iterator-based algorithms.
So the 'problem' really is actually that past code worked under the assumption that an iterator is cheap to copy. There's no grand-fathering that: it's not true in actuality (88 bytes of iterator for zipping over two vectors? wut?), and it's not true in principle once non-trivial range composition comes into play.
I believe that it can't be done because the problem with iterators is inherently due to their over-generous design, too many interface functions, too many semantics. I think the source of the benefits of ranges is directly derived from not offering backwards compatibility.
intuitively, it's easy to say "Implementation is implementation's problem", but I think that some algorithms have proven that it's, a) a real problem, and b) that iterators are that problem.
I'm working on two sides of a coin: on one side I have 'a range is begin/end over a pair of iterators'. It might not look like an improvement but I can code against that. On the other side I have 'a range is either something in range/source/, or it's the result of using something from range/composite/ with one or more range'. If I can definitively 'close over', then the former disappears.
I think that it will be no problem to get by for your own code without ever having iterators except for range-based for, and calling into other people's iterator-based algorithms.
although I think that with polymorphic lambdas, range::for(r, [&](auto&& r) { ... }); isn't too unattractive.
(Btw I have to go back over my 'ginormous iterators' comments from earlier, I completely overlooked that debug iterators for std::vector start at 80 byte apiece.)
@DeadMG Oh, I forgot about range-for. FWIW I consider for an anti-pattern to an extent. An anti-range at least.
@DeadMG I'm pretty much unlikely to ever forbid range::map(r, f) to do wild stuff, as long as the user knows what they're doing. That would be missing the point of using an impure imperative language.
E.g. right now it calls the functor non-const unless it has to, so it can modify itself or the world which includes the input range or the range itself being mapped and so on.
Good point! I was annoyed that copy was shorter, which might suggest it's the 'default' thing to use. Except that auto v = range::copy(r); may be surprising for what I think ought to be a plain, surpriseless operation.
@Rapptz Iterators are clumsy. Since you also need two separate items, it's impossible to have a function return what you need, so chaining things together to do filtering and such is essentially impossible.
@Rapptz A function can only return a single item, but an algorithm takes the begin and end iterators as two separate items. You can't get a function to return those two separate iterators.
@MarkGarcia That's pretty much what Boost range does -- its version of Range (itself) isn't much different than std::pair<iterator, iterator>. That helps some things, but not quite a bit else (e.g., it's still easy to do `std::make_pair(a.begin(), b.end()), and get a completely invalid range.
@CatPlusPlus You can mash two together into a tuple, but that doesn't help all that much. With a conventional algorithm that expects iterators, you still need to take them apart and pass them individually to the algorithm. You can do it, (with or without tuple) but leads to ugly, clumsy code that spends a lot of time putting things together and taking them apart, which obscures what you're really trying to accomplish.
@CatPlusPlus From that perspective, it quit being an issue long before std::tuple was invented -- you could do it in C by returning a struct. Problem is that in this case, it doesn't accomplish much by itself.
@DeadMG Hah, another situation where the copy name is problematic: assuming I keep range::move(r) for a range which items are moved-from items of r, then you'd write std::vector<T> v = copy(move(r));. Kinda daft, no?
auto v = range::convert_to<std::vector<int>>(r);, so that the user properly feels dirty when doing that.
Spent a week working on getting a good user experience from a third-party hardware accessory; looks like their software bugs may be covering up their hardware bugs >_>
@Crowz Computer Science these days is almost entirely software, which leads to pretty much "Business" or "Entertainment"; the actual segment you want to go for depends a lot on what you mean by 'creative'
Essentially, there are a handful of established products for any particular aspect of film effects; and the main CS entry points to these are either in software development for the distributors, or effects development for the users.
i.e. working with people like Autodesk to make their software (or building your own), or dealing with the visual effects artists and creating specific plugins, tools, and shaders for their use
There's a big cross-over in the technology for games, as @MarkGarcia said, btw.
If you're specifically interested in film, I'd suggest getting to know the complete production process and trying to spot your opening.
It could be you have a great idea for an app that does lighting design, or finding problems with soundstage reverb, or...
In java synchronous{} stops everything but critical sections don't seem to do that in Windows. Furthermore, I don't understand why the separated the lock and unlock part of the lock.
@Abyx Maybe he could be an Ukranian with a Russian name?
@DeadMG Um. I had a lot of time those last four days while I was waiting for data to transfer from my old machine (which was a new model) to the new one (which is an old model), which is why I was here, um, more than usual. I am not sure how long this is gonna hold, though.
struct s : base {
int some, aggregate, fields;
s( ... ) = default;
/* equivalent to:
s( int a = {}, int b = {}, int c = {} )
: some( a ), aggregate( b ), fields( c ) {}
};
@MartinJames I almost always fancy a beer. Unfortunately (as @R.Martinho knows), I don't always have the opportunity to enjoy a beer. So What time are you talking about?
Actually it would be better to have it implicitly define a series of separate constructors, not to use default arguments, so as to leave members default-initialized not zero-initialized.
@sbi Well, I arrive on 11th, goto gig with robot on 12th late, leave late-ish 13th, so I have plenty time free to fit in. All playee, no workee, for meee :)
@MartinJames Given that I have to work, that's only two nights, one of which you'll be at a concert, IIUC. That leaves the 11th. Um. I might be able to get away after 8pm, but I'd have to organize that.
While browsing through gcc's current implementation of new C++11 headers, I stumbled upon "......" token. You can check, that the following code compiles fine [via ideone.com].
template <typename T>
struct X
{ /* ... */ };
template <typename T, typename ... U>
struct X<T(U......)> // this line ...