@Sudhi If you're limiting what the gateway can access to the message's public interface, then what exactly is the difference between allowing it the whole interface and only the parts it needs?
those other functions on the message are public anyway and can't change
so it's not like you're losing something by sending the whole object
Passing the whole object makes versioning much less awkward. You add the v2 stuff to the message, and you update the gateway to be aware of it. No previous interface breaks.
I have a really quick question I hope you don't mind. I have a pointer pointing to an array and want to pass it through a funtion. arr is the name of the pointer. do I have to do int fun(int *arr) or int fun(int *arr[])
If you pass the parts separately, you need to break the interface of send to be aware of v2 stuff. Of course, there are ways around this, but IMO they get ugly fast.
@DeadMG : sorry, I am a slow learner. Now let me break it down step by step. Message class hides all the implementation details behind public interface. So to access its properties one must use this public interface. Now which properties are required to send is something Gateway must decide. The message class on the other hand simply needs to provide them. To use it or not, its upto Gateway class ... am I right till here?
@dukevin Don't, ever, do either. Use a type-safe container- such as boost::array. As soon as you use primitive arrays, you're way out of good practices.
Well, we didn't even had to memorize the formulae for Statistics. They were given on the exam. And each exercise was like "Apply Some-Dead-Dude's method/formula to solve this".
what is a legitimate way to create delays in C++; granted that my executions will continue right away even if another process is hogging the CPU at that time ?
auto dot_task = new std::thread( [=]{
for ( int i = 0; i != num_dots; ++ i ) {
std::this_thread::sleep_for( std::duration< int, std::ratio<5> >() );
display_a_dot();
}
delete dot_task;
};
Since you mention that you want to compact memory, it would be best to copy everything to a new vector and use the swap idiom.
std::vector<myvector::value_type>(myvector.begin()+N, myvector.end()).swap(myvector);
Your friend declaration would still be in the global namespace, so it will be using a reserved name. So, yes, it is breaking the rules. Now if I recall correctly user defined literal operators that do not start with an underscore are reserved as well. That would forbid user defined literal operat...
@kbokthe void f() &&; is a member decl. So is void f() noexcept(8);, and then finally void f() && noexcept(8);. Now obscure the name of f and there you go.
Fuck, I think I'm screwed. I'm specializing with_value_category_of for pointers to member functions but what's the right thing to do for e.g. typename with_value_category_of<void (T::*)(), Out>::type?
i did once write a class template that can be given multiple function types and a list of argument types, and it yields a meta list with the function types in the order in which they would be selected by overload resolution
if a function is selected, it is added to the list. once the first ambiguity arises for a call to the remaining functions, the algorithm stops and passes the remaining functions in a separate list.
Here's what I'm doing to achieve this. I'm trying to move the specializations into my traits and use some kind of Ret operator()(typename with_qualifications_of<Signature, Class>::type c, ...) instead.
@JohannesSchaublitb Is that possible at all? How do you deal with conversions?
@LucDanton im doing SFINAE to a class that has operator() for each function type. and they return some type that I use to identify the winning function
I wanted to use instead a <Signature (Class::*)> catch-all specialization and delegate the annoying stuff to with_cv_of, but then I can't declare the operator() without the args.
for names that can only be used for functions, they could have made an exception to the rule that dependent function types cannot declare a function if there is no function declarator
I remember that off-hand suggestion that cv qualifiers be allowed as template parameters. I had no idea what that would look like but now I'm longing for something like it.
one could say that for things like void f(const identity<void()>::type) the const is not regarded redundant. as it applies to afunction type, it will be the type void() const