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I had some code calculating a linear combination on maps of floats, and ran into an interesting side-effect of using the copy constructor.

If I calculate the linear combination of values in two maps and compare it with the linear combination calculated using the values in two copies of those maps, the calculations actually have slightly different (in the neighborhood of 10^-7) results due to what appears to be floating point precision.

Why does this happen?

Here's some sample code:

import java.util.*;

public class WTF {
    public static void main(String[] args) {
        Random rand = new Random();

        for (int c = 0; c < 1000; c++) {
            Map<String, Float> weights = new HashMap<String, Float>();
            Map<String, Float> values = new HashMap<String, Float>();

            for (int j = 0; j < 10; j++) {
                weights.put("sig" + j, Float.valueOf(rand.nextFloat()));
                values.put("sig" + j, Float.valueOf(rand.nextFloat()));
            }

            Map<String, Float> weightsCopy = new HashMap<String, Float>(weights);
            Map<String, Float> valuesCopy = new HashMap<String, Float>(values);

            float score1 = getScore(weights, values);
            float score2 = getScore(weightsCopy, valuesCopy);

            if (score1 != score2) {
                System.out.println(score1-score2);
            }
        }
    }

    public static float getScore(Map<String, Float> weights, Map<String, Float> values) {
        float score = 0.0f;
        for (String name : weights.keySet()) {
            Float weight = weights.get(name);
            Float value = values.get(name);
            score += weight.floatValue() * value.floatValue();
        }
        return score;
    }
}

UPDATE:

The same issue also applies to the putAll operation. Using that to "copy" a HashMap results in the same floating point precision issues.

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2  
This code doesn't compile, specifically including the for loops. Can you post a sample that compiles? (I have a theory about the answer to the question, but I want to verify it first.) –  Louis Wasserman Mar 8 '12 at 21:02
    
Your code doesn't currently compile - both of the for loops in main are broken. (You're never adding anything to any maps, either...) Could you fix them, please? –  Jon Skeet Mar 8 '12 at 21:03
    
You don't show the code that populates the maps. –  Hot Licks Mar 8 '12 at 21:05
1  
The formatting is messed up, not the actual code, hit edit or find someone to approve my edit. –  FauxFaux Mar 8 '12 at 21:17

4 Answers 4

up vote 4 down vote accepted

The order in the map is changing, causing the operations to be run in a different order. An example of the output changing for simple computation (note the flipped d and e):

class WTF {
    public static void main(String[] args) {
        final float a = 0.42890447f * 0.37233013f;
        final float b = 0.2648958f * 0.05867535f;
        final float c = 0.8928169f * 0.7546882f;
        final float d = 0.0039135218f * 0.59395087f;
        final float e = 0.9114683f * 0.33522367f;

        System.out.println(a + b + c + d + e);
        System.out.println(a + b + c + e + d);
    }
}
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The iteration order is changing from the original maps to the copies, since it's rebuilding the hash table (probably with a different size).

The difference in the rounding comes from the fact that * and + on floats aren't quite commutative/associative, and you'll get different rounding errors depending on whether you do a * (b * c) or (a * c) * b or (a * b) * c. Since the ordering of entries and keys is changing between the originals and the copies, you're getting tiny rounding differences in the results.

If you use LinkedHashMap instead of HashMap to ensure preserved iteration order, you should get the exact same results each time. (I've confirmed this on my machine.)

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If you look at the float bits, you'll see one byte exponent and one mantisse bit (8 to the left) is swapped, so one bit error. (2,384186e-07 34800000)

            float ds = score1-score2;
            int bits = Float.floatToIntBits(ds);
            System.out.printf("%e %x%n", score1-score2, bits);
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The order you add floating point numbers can affect the result. As HashMap doesn't guarantee any order so copying a HashMap can result in a different order, meaning the sum of values will be different.

public static void main(String... args) throws IOException {
    List<Float> floats = new ArrayList<>();
    Random rand = new Random();
    float sum0 = 0;
    for (int i = 0; i < 1000; i++) {
        float f = rand.nextFloat() - rand.nextFloat();
        floats.add(f);
        sum0 += f;
    }
    floats.add(-sum0);

    SortedSet<Float> sums = new TreeSet<>();
    for (int i = 0; i < 200000; i++) {
        Collections.shuffle(floats, rand);
        float sum = 0;
        for (Float f : floats)
            sum += f;
        if (sums.add(sum))
            System.out.println(sum);
    }
    System.out.println("Unique sums count " + sums.size()
            + " from " + sums.first() + " to " + sums.last());
}

prints

1.8239021E-5
2.0623207E-5
-2.1278858E-5
1.847744E-5
2.18153E-5
  ....
-2.4557114E-5
-3.415346E-5
1.9788742E-5
-2.270937E-5
Unique sums count 795 from -3.4868717E-5 to 3.1232834E-5
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