Have you guys tried ZMQ? I got a job where I have an offline data that I used to process using producer/consumer where there either the consumer or producer is faster. If the producer is faster looks like ZMQ will just overflow?
@LucDanton "The N editions of Windows 7 have all the features that normally come with each individual Windows 7 edition, except for Windows Media Player 12 and related programs" windows.microsoft.com/en-us/windows7/products/…
Nope, no apple watch for me, I am using that extra $400-$500 to buy an ultralight sleeping bag because I am poor ... and I love overnight bushwalking/hiking especially the hard ones
soon my bushwalking gears would be worth thousands of dollars alone because everything is ultralight (except boots which will be high quality leather ones)
@chmod711telkitty Given a list of scalars for given samples, use an algorithm to distinguish outlying samples based on an outlier-resistant z-value based on the median and median absolute deviation
@Chickenturtle I think you have misunderstood. This is a chatroom. If you have a question, you should go to the "Ask a question" page: stackoverflow.com/questions/ask
The committee was fairly receptive. Really they only complained that it doesn't provide for encapsulation of export-decorated functions, doesn't describe how it interacts with virtual overrides, etc.
The solution is to add export into the type system, which ratchets up the complexity. But the issues are all addressed nicely.
export was, in practical terms, never used. I'm open to suggestions.
My original proposal used punctuation, namely the syntax for a pointer to a reference: const & *, && *, etc. Richard Smith suggested return instead, because he was considering a similar proposal.
I thought return was confusing because it's too close to home. export is better because it has fewer preconceived associations with function implementation.
@Potatoswatter How safe is the feature? Just taking a quick glance, it doesn’t say. I think it’s important to say upfront somewhere in the motivation/rationale. Without knowing if it’s a superior alternative to the status quo (which I can’t figure out easily on my own), my knee jerk reaction would be to dismiss it as 'too much to tack on'.
E.g. how much can a C++14 programmer mess up upon first encountering the proposed feature?
I just updated a bunch of stuff in my lib and ran tests... and one of the tests failed, and it like pinpointed exactly where I made a mistake (typo). Feels so good, I had to share
I.e. I may be willing to put up with the craziness of lifetimes in Rust, but that’s because I get some guaranteed in return, eliminating entire classes of nasty errors. Without it, then I’m not as willing to learn new rules, pitfalls, etc.
@LucDanton There's little room for error, and errors carry little danger. Stroustrup tends to mention the solution of extending all temporaries to the end of the scope. That's pretty much the worst-case scenario, even worse than putting my decorator on every single parameter everywhere.
Even better, the next revision will propose a facility for accessors that preserve const and value category: property_type & get_property() export( const && ) would generate property_type const & get_property() const &, property_type && get_property() &&, and property_type & get_property() & (and the const && one too).
Yeah, I suppose I should mention the worst-case scenario early in the paper. The export(const &&) needs to be near the end, I think, because it's less essential.
> So which is better C or C++? I lean slightly to C++ because they are very similar, but with C++ you get the added benefit of object-oriented programming.
> So which is better C or C++? I lean slightly to C++ because they are very similar, but with C++ you get the added benefit of object-oriented programming. Even if you decide you’re only ever going to program in functional languages, learning how to think in OO teaches organizational patterns that are critical to engineering and maintaining really large projects.
@LucDanton The user doesn't really see lifetime extension at all. It's an obscure feature and a gotcha that they'd prefer not to know about. The user sees a decorator that applies to accessor functions.
@LucDanton Lifetime extension isn't as teachable as accessor functions. All owned-property accessors need to be decorated with export, and they should propagate const and value category too. So, bundle all these things into one facility.
class foo {
int property;
public:
int & get_property() & export(const) { return property; }
};
user1804599
Scala also has this! def f() = { class A; new A }. I think it even treats values of different invocations of f to be of different types but I'm not sure.
You said it would insert moves automagically. Suppose I have struct foo { bar* thing; }; and I want to present a bar, not a bar*. What will be moved, thing or *thing?
@LucDanton If you return *thing;, then that will be moved. If you return thing;, then moving a pointer value makes no sense, so you shouldn't use export(&&).
For pointers and pointer-like classes, generalized lifetime extension works at two levels: it will extend the pointer value itself as well as the referent.
@fredoverflow ideally it's not the language that makes the most money that a smart donkey wants to learn, it's the one requires the least effort per $ earned.
@Potatoswatter I typically forward, not move, in such accessors.
Think template<typename T> struct tuple;. For writing get, you don’t move the content. You forward it to support tuple<T&> gracefully, as that’s a tuple to a reference to something, not a tuple to something.
