# Floating point keys in std:map

The following code is supposed to find the key `3.0`in a `std::map` which exists. But due to floating point precision it won't be found.

``````map<double, double> mymap;
mymap[3.0] = 1.0;

double t = 0.0;
for(int i = 0; i < 31; i++)
{
t += 0.1;
bool contains = (mymap.count(t) > 0);
}
``````

In the above example, `contains` will always be `false`. My current workaround is just multiply `t` by 0.1 instead of adding 0.1, like this:

``````for(int i = 0; i < 31; i++)
{
t = 0.1 * i;
bool contains = (mymap.count(t) > 0);
}
``````

Now the question:

Is there a way to introduce a fuzzyCompare to the `std::map` if I use `double` keys? The common solution for floating point number comparison is usually something like `a-b < epsilon`. But I don't see a straightforward way to do this with `std::map`. Do I really have to encapsulate the `double` type in a class and overwrite `operator<(...)` to implement this functionality?

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How close is close enough? It sounds like you might actually want to store and look up via rounded keys. –  Jefromi Jul 13 '11 at 19:43
In a sort of reverse to your workaround, and if the floats are all of a specified digit precision, you could instead store the keys as integers, the floating-point values being multiplied by some scale factor and stored like that. –  JAB Jul 13 '11 at 20:06
I thought about that, but I will run into trouble depending on the resolution I might overflow easily. –  pokey909 Jul 13 '11 at 20:20
You should be aware that even your workaround could fail - you got lucky on the rounding for the multiply. `0.1` cannot be represented precisely in base 2. –  Mark Ransom Jul 13 '11 at 20:31
–  Robᵩ Jul 15 '11 at 17:20
show 1 more comment

You could implement own compare function.

``````class own_double_less : public binary_function<double,double,bool>
{
public:
own_double_less( double arg_ = 1e-7 ) : epsilon(arg_) {}
bool operator()( const double &left, const double &right  ) const
{
// you can choose other way to make decision
// (The original version is: return left < right;)
return (abs(left - right) > epsilon) && (left < right);
}
double epsilon;
};
map<double,double,own_double_less> mymap;
``````

Updated: see Item 40 in Effective STL! Updated based on suggestions.

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This version can result in undefined behavior because it gives inconsistent results depending on the order of the parameters. If a == b, own_double_less(a,b) returns true but so does own_double_less(b,a). They can't both be less than each other! –  Mark Ransom Jul 13 '11 at 20:09
If you go this route, keep in mind that the comparator has to create a strict weak ordering. `comp(a, b) && comp(b, c)` implies `comp(a, c)`, `comp(a, a) == false`, and `comp(a, b)` implies `!comp(b, a)`. This can be easy to muck up... for instance `own_double_less(-1, -1) == true` if `epsilon > 0` –  Dennis Zickefoose Jul 13 '11 at 20:10
I agree with the other commenters. This solution is wrong in the general case because a == b && b == c => a == c will not always hold and your map will get screwed up. –  jcoffland Jan 24 '12 at 9:26
Do not use this answer it is broken. –  Yakk Nov 12 '12 at 21:21
To be clear, using the above code in a `std::map` can easily lead to the `std::map` performing undefined behavior (including, in practice, crashing, looping infinitely, or blowing the stack). @jcoffland gives an explicit example of how this can happen. Both this answer, and @MarkRansom's answer, are reckless things to do to a `std::map`. –  Yakk Nov 13 '12 at 20:52
show 8 more comments

As Naszta says, you can implement your own comparison function. What he leaves out is the key to making it work - you must make sure that the function always returns `false` for any values that are within your tolerance for equivalence.

``````return (abs(left - right) > epsilon) && (left < right);
``````
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Consdier `a`, `b=a+3ε/4`, `c=a+3ε/2`. We have `(a<b) == false`, `(b<c)==false`, but `(a<c)==true`. Does that violate strict weak ordering? –  Robᵩ Jul 15 '11 at 17:17
@Rob, yes it does. You need some out-of-band way of ensuring that the values stay out of the problem area between 1ε and 2ε apart from each other. This condition was satisfied in the original problem as defined. –  Mark Ransom Jul 15 '11 at 17:24

So there are a few issues with using doubles as keys in a `std::map`.

First, `NaN`, which compares less than itself is a problem. If there is any chance of `NaN` being inserted, use this:

``````struct SafeDoubleLess
{
bool operator()(double left, double right)
{
bool leftNaN = (left != left);
bool rightNaN = (right != right);
if (leftNaN != rightNaN)
return leftNaN<rightNaN;
return left<right;
}
};
``````

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.

(I placed `NaN` as greater than all `double`s, including `+inf`, in my ordering, for no good reason. Less than all `double`s would also work).

So either use the default `operator<`, or the above `SafeDoubleLess`, or something similar.

Next, I would advise using a `std::multimap` or `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:

``````template<typename Container>
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 `std::map` and `std::set` (and `multi` versions).

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:

``````template<typename Container>
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::set` and `std::map`", because it is a bit of a hassle.

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