@jaggedSpire Your own, not system messages, if that's your question. For example "failed to parse 'foo.xml' because of unexpected symbol 'x' in line 42."
Hi. I just have a design question I'd like to here a few opinions about. So, given you have a server class. This class basically needs a method which starts an endless loop. Would you implement that directly into the constructor, or would you put it in a run() method or something? Same question for a client class.
It's funny, when you're looking at common open source projects, 95% of the code seems to be a total mess. It's a little wonder those things actually work.^^
I mean, I'm really not a fanboy of any language. I actually think C++ is completely broken without concepts and modules. (Because Templates are just horrible without these features.) But Java has a special hate-place in my heart.
It feels like someone designed it with 6th graders in mind as a pure teaching language. And then people started actually using it and they hacked all the "advanced" features into the language. ^^
Oh, learning Java was the first thing I had to do at my university. Before that my opinion of Java was pretty neutral, didn't have big interest since it didn't solve any problems I had it C++.
If you do, do it for Java, these guys are much more appreciative about stuff like that, C++ programmers are just weirdos that want to do everything at runtime with their precious templates^^
And Java doesn't even have templates as alternative, so it might even make stuff a lot faster - I mean, virtual calls are much more common there anyway
Oh well, that'd be a pain, I don't even think it's possible.^^ But my point being: If one has to interface with another language one better do it in few, very heavy calls because that shit is going to be quite heavy anyway. So I don't care too much about optimizing that stuff
Not quite, not quite. If we have modules at the same time, it becomes irrelevant what is in which TU. This way, one can just always take concepts without hurting compile-time and having everything exposed in header files (like it is now with templates). And now the "user" can decide what to use. :)
Well it's not really a compile-time optimization. With concepts one could actually do the thing I did more or less automatically. Just take a object from concept HasFoo (or something like that) - here foo() can be virtual or non-virtual -> bam^^
Well it has some drawbacks. First of all the creation overhead can get really big (really, typeid stuff is 10x more expensive than virtual calls as you probably know), so, that's a thing. And then: Who does really use extensive virtual calls if he wants performance? So, it's a quite complicated optimization that probably isn't going to help too much people.
It's actually better, because the call can get completely inlined even if one does more than forward the call. Also, it doesn't introduce object-creation overhead. ;)
Yes, of course, because the unique_ptr<foo_base> class demonstrates the unknown case. And it is definitely reliable that the other call gets inlined because it is not virtual. That's the whole point.
It is not only statically dispatched, the function disappears completely (gets inlined), because we already know the exact type. If we do not know the type I just pass an unique_ptr<foo_base>, as demonstrated. Edit: Note that the type of the template parameter does not have to be polymorphic! It can be anything you want!
Well the right foo has to be chosen manually anyway, so I don't really see the difference. Well, one can now put multiple Cs with different foos in one container - but this will probably never happen since C has virtual functions itself and one probably wants container<unique_ptr<SomeInterface>>.
