So there are a few issues with using doubles as keys in a
NaN, which compares less than itself is a problem. If there is any chance of
NaN being inserted, use this:
bool operator()(double left, double right)
bool leftNaN = (left != left);
bool rightNaN = (right != right);
if (leftNaN != rightNaN)
but that may be overly paranoid. Do not, I repeat do not, include an epsilon threshold in your comparison operator you pass to a
std::set or the like: this will violate the ordering requirements of the container, and result in unpredictable undefined behavior.
NaN as greater than all
+inf, in my ordering, for no good reason. Less than all
doubles would also work).
So either use the default
operator<, or the above
SafeDoubleLess, or something similar.
Next, I would advise using a
std::multiset, because you should be expecting multiple values for each lookup. You might as well make content management an everday thing, instead of a corner case, to increase the test coverage of your code. (I would rarely recommend these containers) Plus this blocks
operator, which is not advised to be used when you are using floating point keys.
The point where you want to use an epsilon is when you query the container. Instead of using the direct interface, create a helper function like this:
auto my_equal_range( Container&& container, double target, double epsilon = 0.00001 ) -> decltype( container.equal_range(target) )
auto lower = container.lower_bound( target-epsilon );
auto upper = container.upper_bound( target+epsilon );
return std::make_pair(lower, upper);
which works on both
This finds a range of things whose keys are "sufficiently close" to the one you are asking for, while the container maintains its ordering guarantees internally and doesn't execute undefined behavior.
To test for existence of a key, do this:
bool key_exists( Container&& container, double target, double epsilon = 0.00001 )
auto range = my_equal_range(container, target, epsilon);
return range.first == range.second;
and if you want to delete/replace entries, you should deal with the possibility that there might be more than one entry hit.
The shorter answer is "don't use floating point values as keys for
std::map", because it is a bit of a hassle.