If you look into `std::lower_bound()`

and `std::upper_bound()`

documentation, you can see that they have put a special requirement on the *range* they can be applied to:

The range [first, last) must be partitioned with respect to the expression !(value < element) or !comp(value, element), i.e., all elements for which the expression is true must precede all elements for which the expression is false. A fully-sorted range meets this criterion.

As `std::map`

satisfy that criterion one could use those generic functions on it, but such usage is not efficient, as those generic functions are unaware of the internal representation of the map. So `std::map`

provided its own, more efficient variants (though less generic). `std::unordered_map`

on another side, does not satisfy the criterion so you cannot apply those generic functions on it and so it does not make any sense to implement them for `std::unorderd_map`

itself.

I though the lower_bound returns the first iterator with a given key, this could be possible on an unordered container.

This is what `std::find()`

does. `std::lower_bound()`

or `std::map::lower_bound()`

gives you the position, from which elements of the range are not less than the key. The fact that you can use it to find a particular element is a useful side effect of that behavior, but not the main purpose of those functions.