davidbak

@FrançoisAndrieux - I understand about definitions of template code needing to be present, not just decls. I don't get why it is an "implementation detail" that the defn of map::at uses std::out_of_range when the standard tells you it does and why it does!. But I concede that you have to #include <stdexcept> when you use map::at. And I guess I'll start #including <stdexcept> when I use string::at, too, etc. etc. And I look forward to discovering other such surprises as well in other std library headers ... Yep.

@Tommy - yes, sorry, fixed!

Fine. I accept that this is the state of things. It is very odd to me that you guys are both talking about implementation detail instead of recognizing that it is part of the specification of map, but I guess that's how the standard treats it. I accept things but I am still damn surprised.

@largest_prime_is_463035818 - but throwing std::out_of_range is not an "implementation detail" - it is part of the specification of std::map! An implementation detail leaking would be if some implementation of std::unordered_map needed you to #include vector because it used vectors to implement buckets though vector appears nowhere in the specification of unordered_map.

@FrançoisAndrieux - So technically all my code that #includes <map> is actually not portable by the standard since I don't also include utility, memory_resource, stdexcept, iterator if I happen to use map::at and map::reverse_iterator? Very unexpected.

@FrançoisAndrieux - std::exception isn't just "useful" with std::map - it is part of the specification of std::map! Is it also ok for a <map> header to not include a decl for std::pair? I'm very surprised.

If true that the standard allows this: Why?

This is why Haskell, for example, has functions foldr1 and foldl1 - for use when there's no appropriate default value that can be determined from the type alone and instead the caller must supply a non-empty sequence.

i assume that if the compiler is inlining the function being called it's free to keep the pointer in a register if it can determine there is no problem with exceptions (or can arrange to move the pointer to memory just in time to destruct it? that is, things that happen at that level of generated code are ok as long as the contracts are met?

@Steve - my argument was that once a programmer learns !! - and google will tell you what it means if your colleagues won't - he'll never forget it. But again, !! is a bad example because we haven't needed it for expressiveness for years. Google C++ style guide generally prohibits auto unless it is absolutely required, also prohibits newer preferred styles such as trailing return types, etc. etc. Why not just learn that stuff and gain the expressiveness?

@Koh-i-Nor - Yes, that is the reason they give. And it is completely unreasonable as a justification in the 21st century. And it is completely unreasonable for modern C++ where syntax is bloated - templated types (and you're supposed to always spell out std::), C++ casts like static_cast<some-type*>(...) and their preferred long explanatory variable names means that at 80 columns hard limit you're constantly getting bad line wraps that impair readability.

@Steve - but in what way is, for example, if (nullptr != foo) ... more readable and understandable than if (foo) ...? If you don't understand that in C++ (C too) null pointers compare as false and all other pointers as true you have not learned basic C++ pointers and basic C++ facts about what truthity and falsity are.

Plus Google C++ Style Guide is for lowest common denominator - not to mention arbitrary in many places. (80 column line width why? Because, well, no reason really.) Instead of setting the bar just a little bit higher for all C++ programmers and then teaching colleagues to get them up to speed they disallow anything that could confuse someone who probably wouldn't pass their hiring bar. Plus enshrine in it practices that are fine in their environment but not necessary elsewhere. It is overrated.

I've never understood the reluctance. The only reader who could be puzzled by !! is one who has never seen it before. So he asks a colleague who tells him "you use it to convert an integer to 1 or 0" and now he knows the idiom forever. I constantly get dinged on this in code reviews (different companies each time) and the reviewers constantly cite an arbitrary employee-to-be-hired-in-the-future as the one who won't know about !! but can never point to anyone who actually doesn't know or who after having it explained won't remember it. (Example is old though: not needed in C++ with bool)

I thought the whole point of matching new with delete and new[] with delete[] was that the in-heap representation could be different, e.g., the array alloc/dealloc had to remember - somewhere - the size of array and that might make the alloc/dealloc different. With some heap implementations it may not matter - but it some it might!

It's not even mathematically impossible; this is valid, for example, in arithmetic mod 1 ...