So just to be clear, T t = t2 is the same as T t(t2) and T t = 4 is the same as T t(4)except that it requires a non-explicit constructor and a publicly accessible operator= that takes that argument but it doesn't use operator=
It's my understanding that there's a lot of inertia in the SC regarding that particular rule. The fact that this could have been relaxed for C++11 (when the source type is related to the destination type) is a miracle already.
@CatPlusPlus Well the standard does say that the use of asm is implementation defined and doesn't require anything else (it just says "usually it would be used to pass assembly instructions to the compiler" but that's it)
The form of initialization (using parentheses or =) is generally insignificant, but does matter when the entity being initialized has a class type; see below.
Here's how it goes: std::unique_ptr and the like are obviously owning, std::weak_ptr can give you an owning std::shared_ptr or a null std::shared_ptr (or an exception, hah), T* is non-owning (because), (T*, T*) is an iterator pair, (T*, some_integral_type) is a C-style iterator + length pair.
@classdaknok_t It gives power to writers of UD types to give semantics to those, much like semantics are given to const std::vector<T> compared to std::vector<T>.
Unlike with const though that might be more restricted, I haven't investigated that much.
@JohannesSchaublitb my answer was basically: State & state = getState() evaluates to state&. If the State class has a conversion operator to an integral type then this will be used as the switch variable.
I'm wondering if a perverse allocator is allowed to check that its allocations are done for a const-qualified container and if so it can in fact break *(int*)a.data() = 10;.
I am working with doing some serial communications in C in Linux. I am doing this using file descriptors. For some reason after char* s = "Hello world", I can write s to the serial port using the write method, no problem. I am using a serial monitor program to check the other end. However, I cann...
> tests.cpp:16:34: error: 'raw_ptr' was not declared in this scope > tests.cpp:16:34: note: suggested alternative: > In file included from tests.cpp:4:0: > ptr.hpp:53:19: note: 'base::raw_ptr'
Hi. I have a print line ( cout << ... << endl) just before a function returns. It is occasionally showing up when I run the program. I have a similar statement at the beginning of that function, and it shows up a lot more. They should both show up the same amount, obviously. I am sure I am missing something obvious. I do notice when that function runs slowly, the latter print statement is more likely to appear, so makes me wonder if it is a flushing issue.