If something is not used in C++, it's not compiled at all. Is the same true for iPhone?
If I compile a program and there are unused classes or other stuff, will it be compiled or ignored?
How a lot of the hardships in writing iterators are inherent to the problem of iterating, and how what iterators do under the covers are intimately tied to the underlying container or sequence or kind of iteration; and how that conflicts with the usual view that C++ iterators should be lightweight.
Iterators are designed to be simple to use in generic situations, not simple to write.
so if I put range.first and range.second into some vectors, and mishmash them around with a bunch of other iterators basically randomly, that'll work fine, too?
because any first iterator can work with any second iterator
@LucDanton iterators are all required to be CopyConstructible, and the standard library almost always passes them by value. However, you can also define a reference-to-noncopyable-iterator class, which is an iterator. This works well.
C++ defines time formatting functions in terms of strftime, which requires a struct tm "broken-down time" record. However, the C and C++03 languages define no thread-safe way to obtain such a record; there is just one master struct tm for the whole program.
In C++03 this was more or less OK beca...
make_distinct_view without heap allocation is trivial to write and the resulting iterators are cheap to copy, simple to use. Perhaps that's not the best example.
It's not a problem IMO for make_distinct_view but that may be due to the nature of that example: this particular functionality will not ever be called by client code that didn't explicitly needed it (and thus will be written to accomodate that interface).
@DeadMG Ranges don't leak -- ranges are not the concept to use for what you're attempting.
deque doesn't make the contiguous guarantee that you need to use pointers like that.
@DeadMG It may be silly to have a concurrecnt::make_distinct_view but if you so desire you can and it may work with parallel_sort (although I am not familiar with the exact requirements it puts on ranges)
@DeadMG I'm trying hard to tie the situation with just iterators but arguably it's hard than that; how about a generic make_subsequence<Range>()(range)
mainly, how incredibly goddamn bitchy it is whenever you do anything except explain to the compiler incredibly slowly and in very strange orders what you want
I want to implement a variant class that can store any datatype (like boost::any) but with the support of datatype conversion. For example,
Variant v1(int(23)); can be converted to bool via v1.get<bool>()
using Converter<int, bool>, Variant v2(CustomT1()); to CustomT2
via Converter&...
I think I'm going to need a std::map with nodes from an intrusive list as values. Does this sound insane? I'm pretty sure I'm micro-optimizing, but I can't seem to stop it now.
It's an MRU cache. I need quick access by key, and when accessed, an element pops to the front. When a new element is added, the element in the back is dropped.
Has anyone ever used the Boost Concept Check Library to verify template argument constraints on template parameters, and create more readable error messages when they occur?
If something is not used in C++, it's not compiled at all. Is the same true for iPhone?
If I compile a program and there are unused classes or other stuff, will it be compiled or ignored?
I want to implement a variant class that can store any datatype (like boost::any) but with the support of datatype conversion. For example,
Variant v1(int(23)); can be converted to bool via v1.get<bool>()
using Converter<int, bool>, Variant v2(CustomT1()); to CustomT2
via Converter&...
