In networking a protocol is like a set of rules, or it gives meaning to how a message can be sent, right? So I can choose to have no protocol in my application layer. Or I can use an existing one or choose to make my own protocol?
For example I can just write a letter from top to down with no structure. Or I could put some structure and add my address on the top right hand corner and all that crap... Something like that?
@CatPlusPlus But that doesn't leave many: You either know PHP, C#, Java and JavaScript, in which case you probably think that Java is hip and cool, or you know Haskell, Lisp and Python and you just say, "what's Java"?
@awoodland Hm, the GotW doesn't deal with separate declaration and definition. But Christopher in the comment already found the relevant part in the C++ standard.
C# I'm trying to compare two different objects (I'm only comparing identical subfields). But I have another place where there's a check against null. Now I have a problem, it falls through to comparing the two different objects, and that blows up because it's not expecting null. I tried to put a ...
@KerrekSB yeah that's the same, it's specified as int main(void) or int main(int argc, char *argv[]) with a note about typedefs and char **argv being fine also
in C, hosted implementations must accept int main(void) and int main(int, char *[]) and any implementation-defined additional prototypes (eg int(int, char**, char** env). (they must be documented, as any implementation-defined details)
@KerrekSB: yes, signals are out - only things like float.h, limits.h, stddef.h (ie things which in a way only document architecture details, but need no extensive runtime) are necessary for conforming freestanding implementations
@KerrekSB well, I added a line unsigned char *bytes = ...
:1901036 C++ finally cleaned up this void* malarkey. In C++, byte streams are always char*. Thank god.
Nothing else makes sense, too. If you want to copy an amount of bytes, you have to take the addresses as char*s. The void* in C is heavily abused in that sense...
That said, the name char is also a massive misnomer that will have people confused to the end of days. :-)
@Christoph - so why doesn't gcc with -Wall -Wextra -ansi -pedtantic even warn about const being different on a parameter at declaration vs definition? My experience in the past was that -ansi -pedantic was pretty damn good.
@awoodland: clang 2.9 doesn't warn as well; however, a lot of UB doesn't require a warning message, and -pedantic only cares about messages required by the standard...
also, keep in mind that the C standard assumes no information passing between seperate translation units, so it can't mandate a warning in the general case