Is there a function in that uses binary search, like `lower_bound`

but that returns the *last* item *less-than-or-equal-to* according to a given predicate?

`lower_bound`

is defined to:

Finds the position of the

firstelement in an ordered range that has a valuegreater than or equivalent toa specified value, where the ordering criterion may be specified by a binary predicate.

and `upper_bound`

:

Finds the position of the

firstelement in an ordered range that has a value that isgreater thana specified value, where the ordering criterion may be specified by a binary predicate.

Specifically, I have a container of time ordered events and for a given time I want to find the last item that came before or at that point. Can I achieve this with some combination of upper/lower bound, reverse iterators and using `std::greater`

or `std::greater_equal`

?

EDIT: A tweak was needed to user763305's suggestion to cope with if you ask for a point before the start of the array:

```
iterator it=upper_bound(begin(), end(), val, LessThanFunction());
if (it!=begin()) {
it--; // not at end of array so rewind to previous item
} else {
it=end(); // no items before this point, so return end()
}
return it;
```

mustuse the same comparator (or a logically equivalent one) to the one the range was sorted with, otherwise the binary search algorithms have undefined behavior. So if you wanted to use`std::greater`

you'd first have to either reverse the range or use a reverse iterator over it. And you can't ever use`std::greater_equal`

as a comparator because it is not a strict weak order.