Also would better if const char* rather than std::string.. A better approach is to use #defines to capture the call site or boost backtrace: #define api_invalid_argument(msg) _api_error_handler<std::invalid_argument>(__FILE__,__LINE__,"invalid argument",msg)
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make_unique and perfect forwarding
Why does C++11 have a make_shared template, but not a make_unique template?
This makes code very inconsistent.
auto x = make_shared<string>("abc");
auto y = unique_ptr<string>(new string("abc"));
When they say "Elements are compared using operator<" they mean "The algorithm used operator< to determine the order", not "operator< will return true for all consecutive pairs".
"less than or equal" can be figured using just the less than (a < b and b < a)
@nwp Yeah, this is what I realized. I thought nth_element would partition according to the < operator by default. Even though the default operator is <, it partitions according to <=.
Is there a reason why it's defined in this confusing way? What's the issue if the default operator was <= or nth_element ordered according to just <?
Probably with two different overload, along with `std::enable_if`. The MSVC implementation I am looking at is template<class _Ty, enable_if_t<is_array_v<_Ty> && extent_v<_Ty> == 0, int> = 0> _NODISCARD inline unique_ptr<_Ty> make_unique(size_t _Size) { // make a unique_ptr typedef remove_extent_t<_Ty> _Elem; return (unique_ptr<_Ty>(new _Elem[_Size]())); }
That's the overload for arrays.
You would have the inverse enable_if for the normal make_unique.
@Yashas Let's say you're looking for the tenth element in the array. When sorted, that would be the value 17. But there are 3 elements with the value 17 in the array. The elements will be arranged so that one of those elements with the value 17 is in the tenth spot. It also guarantees that all values less than 17 will be somewhere in array[0] through array[8], and all values greater than 17 will be somewhere in array[10] through array[array_size].
But it doesn't guarantee anything about the other elements with the value 17. They could be in either the "lower" or "upper" parts of the array--and given a total of three (or more) some could be in the lower part, and some in the upper part.
It depends on the positions the elements would be in if you sorted the entire array. If the position you've given would be the beginning of that run of equal elements, then you'll end up with one of them in the specified position, and the others on the "high" side. If the position you specified would be the end of the run, then they'll all be on the "low" side. And if you specified somewhere in the middle of the run, then some will be in the low, and others on the high side.