@rubenvb I think he just doesn't know much of C++, and is confused both by the syntax for a member function definition out of class and by the member initialization list.
SFINAE gone bad:
M:\Development\Source\KISS\include/tmp.hxx:48:5: error: no type named 'type' in
'kiss::__implementation::enable_if<false, long>'
using enable_if = typename __implementation::enable_if<Condition, T>::type;
^~~~~
M:\Development\Source\KISS\include\math.hxx:191:26: note: in instantiation of
template type alias 'enable_if' requested here
template<typename T> kiss::enable_if<is_integral<T> && sizeof(T) < ...
^
M:\Development\Source\KISS\include\math.hxx:192:15: note: while substituting
@RMartinhoFernandes Ha, many of you can teach me a lot of stuff. I haven't written C++ for a living in years, I totally missed out on C++11, and I could never make myself reading the standard, so I lack a lot.
@WTP I think it was wrong closing this. I think this was asking about orange::orange() ("resolution operator"), not about member initialization lists. I don't doubt that there's a dupe for this one, too, but this isn't it. // @Als, @Jerry, @RMartinho, @ruben
@JerryCoffin I know. That's why I said "...at least not according to MS' marketing babble." I just thought that message is confusing enough as it is...
If you have a type Ptr on which you have overloaded operator->(), then what does this do: void g(Ptr p) { X* q = p.operator->();} ? Unless this operator overload does something else then what's it's use is normally for, this seems a strange use of it, although it's perfectly valid.
Answer each of the following questions:
The Unsorted List ADT is to be extended with a Boolean member function, IsThere, which takes as a parameter an item of type ItemType and determines whether there is an element with this key in the list.
a. Write the specification for this function (i.e.,...
> Actually, the real tricky difference between struct and class is that the latter can be used in place of a typename to declare a template parameter, while the former cannot. :) — sbi
a->b may be transformed into a.operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->().operator->()->b
> No screenshots and Introduction is not very clear. at least explain what is this for, why we use this, and what are the advantages and disadvantages, why we use this over something else.
It should be easier to picture why the overload resolution is ambiguous by going through it step-by-step.
§13.5.5 [over.sub]
Thus, a subscripting expression x[y] is interpreted as x.operator[](y) for a class object x of type T if T::operator[](T1) exists and if the operator is selected as th...
Possible Duplicate:
Is array name a pointer in C?
I have been programming c/c++ for many years, but todays accidental discovery made me somewhat curious... Why does both outputs produce the same result in the code below? (arr is of course the address of arr[0], i.e. a pointer to arr[0]...
After hours of playing around and some serious discussions in the C++ chat room, we finally got a version that works for functors with possibly overloaded or inherited operator() and for function pointers, based on @KerrekSB's and @BenVoigt's versions.
#include <utility>
#include <type_...
> (Yes, I think the idea is stupid. Yes, I still went and built this. Yes, it was fun, very much so. No, I'm not insane. Atleast that's what I believe...)
First, "ref-qualifiers for *this" is a just a "marketing statement". The type of *this never changes, see the bottom of this post. It's way easier to understand it with this wording though.
Next, the following code chooses the function to be called based on the ref-qualifier of the "implicit obj...
Really, This room is popular. Now it's users without a single upvote for a C++ answer coming here and asking for help with their French homework. We should get a collective Legendary badge.
@TonyTheLion Actually, these are Ok with me, as long as they don't get out of hand (as those Haskell fanatics managed to do). I'm just shaking my head. (I'm not bashing you, @Ell.)
The missing digit is 0. In a mathematical sense, 0 is neither positive nor negative. But in a binary sense, since 0 has no negative bit, it's considered positive. In other words, if you wanted -128 to 128, there couldn't be a 0.
I saw a function declaration in our code that looked as follows
void error(char const *msg, bool showKind = true, bool exit);
I thought first that this is an error because you cannot have default arguments in the middle of functions, but the compiler accepted this declaration. Has anyone seen ...
but your choices when you add a sign bit are a) allow -0 and +0 to co-exist, b) have something "wasted" by being an illegal bit pattern or c) make the range asymmetric