@RMartinhoFernandes I was referring to using PHP to generate a bunch of anchor boilerplate from an array of grammar parts. The same could be done in JavaScript.
What changes for C++11?
Aggregates
The standard definition of an aggregate has changed slightly, but it's still pretty much the same:
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),...
@MooingDuck I have three structs which have non-aligned sizes: 17, 20 and 23. So I would expect that the struct that ends up containing them as members would have padding added.
@RMartinhoFernandes (I'm assuming this code is actually yours) You should hunt down and yell at jenn for her only comment being "Added by jenn 2011" when your CSS is beautifully formatted and commented with proper usage
I'm working on MS C++ compiler, and have done the next program:
#include <stdio.h>
void main(void)
{
void(*ptr)(void) = &main;
}
I wanted to make a pointer on main() method/function, but has got the next error:
error C2440: 'initializing' : cannot convert from 'int (__cdecl *)(...
the C syntax really isn't designed to cope with types and expressions being the same thing
@RMartinhoFernandes No, I merely realized that explaining it to the rubber duck would take a significant period of time and the idea isn't fully-formed yet anyway
well, mostly, I cut the whole TU thing, so the only things left that need declaring instead of defining are the things which are invisible over a run-time interface
Well, I was using declaration in the general sense, if your declarations/definitions are the same the comment still stands. The C style of declarations is what leads to those ambiguities of the parser
the only ambiguity I have inherited is that construction and function generalization- that is, something like (the T() part) std::function<void()> looks exactly like std::string x = std::string()
as the context is no longer enough to differentiate them, I now have a problem which did not exist previously
@DavidRodríguezdribeas Yeah, occasionally you do need to make the type of something explicit to cue the compiler to infer the whole thing. But that's quite rare though.
More of a wish than a real option, it is quite a radical change to the language. Actually part of it has been done already (for functions you can reorder): auto f() -> int
it was intended to be much more arbitrary than that- like you could perform exception specification logic too, and you could set other things like the calling convention, export name, etc
instead of compiler vendors having to introduce things like __declspec
How do you want to implement the *overload resolution error*, chain the options on the calling side? f(x) ---translates-into---> if ( overload_resolution_error(f_1(x)) ) if ( overload_resolution_error(f_2(x) ) ... ??
@RMartinhoFernandes If you mean that you can use weak typing, I agree, if you mean that you need to use or you even should use weak typing I don't quite agree
@DavidRodríguezdribeas No. More like first, match the parameters, and then instantiate all those functions, eliminate the ones whose prologs throw the given exception, then perform best-fit match on the rest.
@RMartinhoFernandes Do you? I don't remember the last time that I used weak typing, unless we are referring to different things... maybe I am just too used to it and don't realize :P
I find that strong vs weak typing not clear. An example of weak vs strong typing whether or not you can append a number to a string using operator+=. In JavaScript you can so it's weakly typed. In Ruby you can't because it's strongly typed. But what if you define the overload string::operator+(int)? Is it then still strongly typed because the overload had to be added explicitly?
Two commonly used languages that support many kinds of implicit conversion are C and C++, and it is sometimes claimed that these are weakly typed languages. However, others[who?] argue that these languages place enough restrictions on how operands of different types can be mixed, that the two should be regarded as strongly typed languages. PHP and Perl are two examples of weakly typed languages. From wikipedia
@DeadMG So there should be an explicit conversion from const char* to std::string??
The details of implicit conversion semantics are mainly important when interfacing templates to overloaded non-template functions. That's the case when you don't have a choice. IMHO, aesthetics be damned.
> One of the more common definitions states that weakly typed programming languages are those that support either implicit type conversion, ad-hoc polymorphism (also known as overloading) or both.
@user1131997 VS is reporting the wrong type for &main. It should have the same type (pointer to function) as the other variable you're showing. Wrong type => nonsense information.
At any rate (not related to the double implicit conversion, but just an implicit conversion to const char*), consider if (str); str += 5;` as of the double conversion many operations that make sense now would not work: str < "a"str == "a"...
(then again I am one of those that does not consider the pattern the source of all evil, and I have already had this argument here before... together with goto is a fine tool where it makes sense)
For what it's worth, you could only allow UD conversion to chain if the conversion is to a builtin type. No magic numbers, and it generalizes MG's case.
Also eliminates the potential combinatorial explosion.
Quiz question: std::bind( &f, a ), assuming that a is of a type that does not implement move construction. How many times is a copied? (no right answer, just a curiosity of the different implementations)