42

I'm trying to use the below code to calculate the average of a set of values that a user enters and display it in a jTextArea but it does not work properly. Say, a user enters 7, 4, and 5, the program displays 1 as the average when it should display 5.3

  ArrayList <Integer> marks = new ArrayList();
  Collections.addAll(marks, (Integer.parseInt(markInput.getText())));

  private void analyzeButtonActionPerformed(java.awt.event.ActionEvent evt) {
      analyzeTextArea.setText("Class average:" + calculateAverage(marks));
  }

  private int calculateAverage(List <Integer> marks) {
      int sum = 0;
      for (int i=0; i< marks.size(); i++) {
            sum += i;
      }
      return sum / marks.size();
  }

What is wrong with the code?

  • 6
    You aren't summing marks, you're summing the array index i. – Tony Ennis May 28 '12 at 23:50

11 Answers 11

63

Why use a clumsy for loop with an index when you have the enhanced for loop?

private double calculateAverage(List <Integer> marks) {
  Integer sum = 0;
  if(!marks.isEmpty()) {
    for (Integer mark : marks) {
        sum += mark;
    }
    return sum.doubleValue() / marks.size();
  }
  return sum;
}
  • 26
    +1 This is a civilized loop for a more civilized time. It's not as clumsy or random as a blaster. – Tony Ennis May 28 '12 at 23:55
  • +1 was just about finished writing this. – n00begon May 28 '12 at 23:55
  • 5
    I'd check if marks.size() == 0 in the beggining, as this will divide by zero if the list if empty – Axarydax Feb 7 '13 at 6:11
  • 3
    I love java, but you gotta miss C#'s list.Average() function when you're doing this :p – John Humphreys - w00te Apr 23 '14 at 20:28
  • Just a quick note, one reason to use the clumsy loop is that it is a lot faster than the so-called civilized loop. For ArrayLists, the for(int i = 0 .... ) loop is about 2x faster than using the iterator or the for (:) approach, so even though it's prettier, it's a lot slower! One tip to make it go even faster is to cache the length as follows: for (int i = 0, len = list.size(); i <len ; i++). The len=list.size() will only get executed once in the beginning of the loop, and the len cached value will be tested each time instead. – Leo Mar 8 '16 at 18:33
56

With Java 8 it is a bit easier:

OptionalDouble average = marks
            .stream()
            .mapToDouble(a -> a)
            .average();

Thus your average value is average.getAsDouble()

return average.isPresent() ? average.getAsDouble() : 0; 
  • 15
    average.isPresent() ? average.getAsDouble() : defaultValue can be simplified further to optional.orElse( defaultValue ) – Oleg Estekhin Aug 21 '15 at 7:55
24

If using Java8 you can get the average of the values from a List as follows:

    List<Integer> intList = Arrays.asList(1,2,2,3,1,5);

    Double average = intList.stream().mapToInt(val -> val).average().orElse(0.0);

This has the advantage of having no moving parts. It can be easily adapted to work with a List of other types of object by changing the map method call.

For example with Doubles:

    List<Double> dblList = Arrays.asList(1.1,2.1,2.2,3.1,1.5,5.3);
    Double average = dblList.stream().mapToDouble(val -> val).average().orElse(0.0);

NB. mapToDouble is required because it returns a DoubleStream which has an average method, while using map does not.

or BigDecimals:

@Test
public void bigDecimalListAveragedCorrectly() {
    List<BigDecimal> bdList = Arrays.asList(valueOf(1.1),valueOf(2.1),valueOf(2.2),valueOf(3.1),valueOf(1.5),valueOf(5.3));
    Double average = bdList.stream().mapToDouble(BigDecimal::doubleValue).average().orElse(0.0);
    assertEquals(2.55, average, 0.000001);
}

using orElse(0.0) removes problems with the Optional object returned from the average being 'not present'.

  • oops - never noticed the Java8 answer above which is the same as the one I gave – robjwilkins Aug 21 '15 at 7:51
  • 1
    in example 2, why is mapToDouble needed when the dblList contains Doubles? – simpleuser Jul 14 '17 at 21:11
  • @simpleuser - because mapToDouble returns a DoubleStream, which has an average method. – robjwilkins Apr 30 '18 at 10:09
  • I do not think the third method is working (using mapToDouble(BigDecimal::doubleValue).average()). You should use BigDecimal::valueOf instead. – Hearen Jun 26 '18 at 1:11
  • And actually even that, you are still wrong, since average is only working for primitive types. – Hearen Jun 26 '18 at 1:17
14

Use a double for the sum, otherwise you are doing an integer division and you won't get any decimals:

private double calculateAverage(List <Integer> marks) {
    if (marks == null || marks.isEmpty()) {
        return 0;
    }

    double sum = 0;
    for (Integer mark : marks) {
        sum += mark;
    }

    return sum / marks.size();
}

or using the Java 8 stream API:

    return marks.stream().mapToInt(i -> i).average().orElse(0);
  • It would be cleaner to caste to a double just before you return so you don't get any floating point errors creep in when marks is a very large list. – n00begon May 29 '12 at 0:02
  • concerning the Java 8 API what are the needed imports? – eactor Sep 15 '15 at 13:58
  • @eactor In the example above no additional import is necessary. – Emmanuel Bourg Sep 17 '15 at 10:52
10
sum += i;

You're adding the index; you should be adding the actual item in the ArrayList:

sum += marks.get(i);

Also, to ensure the return value isn't truncated, force one operand to double and change your method signature to double:

return (double)sum / marks.size();
  • @Cicada: Thanks! Was just editing that in. – Ry- May 28 '12 at 23:51
  • 3
    Since he's using a list, you should use sum += marks.get(i); – jahroy May 28 '12 at 23:52
3

Using Guava, it gets syntactically simplified:

Stats.meanOf(numericList);
2
List.stream().mapToDouble(a->a).average()
  • Try to use code formatting and provide some context to your answer. See the other answers as examples. – hidralisk Nov 23 '17 at 17:29
1

Correct and fast way compute average for List<Integer>:

private double calculateAverage(List<Integer> marks) {
    long sum = 0;
    for (Integer mark : marks) {
        sum += mark;
    }
    return marks.isEmpty()? 0: 1.0*sum/marks.size();
}

This solution take into account:

  • Handle overflow
  • Do not allocate memory like Java8 stream
  • Do not use slow BigDecimal

It works coorectly for List, because any list contains less that 2^31 int, and it is possible to use long as accumulator.

PS

Actually foreach allocate memory - you should use old style for() cycle in mission critical parts

1

You can use standard looping constructs or iterator/listiterator for the same :

List<Integer> list = Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8);
double sum = 0;
Iterator<Integer> iter1 = list.iterator();
while (iter1.hasNext()) {
    sum += iter1.next();
}
double average = sum / list.size();
System.out.println("Average = " + average);

If using Java 8, you could use Stream or IntSream operations for the same :

OptionalDouble avg = list.stream().mapToInt(Integer::intValue).average();
System.out.println("Average = " + avg.getAsDouble());

Reference : Calculating average of arraylist

0

Here a version which uses BigDecimal instead of double:

public static BigDecimal calculateAverage(final List<Integer> values) {
    int sum = 0;
    if (!values.isEmpty()) {
        for (final Integer v : values) {
            sum += v;
        }
        return new BigDecimal(sum).divide(new BigDecimal(values.size()), 2, RoundingMode.HALF_UP);
    }
    return BigDecimal.ZERO;
}
0

When the number list is not big, everything seems just right. But if it isn't, great caution is required to achieve correctness/accuracy.

Take double list as an example:

If the double list is not quite big, you can just try this:

doubles.stream().mapToDouble(d -> d).average().orElse(0.0);

However, if it's out of your control and quite big, you have to turn to BigDecimal as follows (methods in the old answers using BigDecimal actually are wrong):

doubles.stream().map(BigDecimal::valueOf).reduce(BigDecimal.ZERO, BigDecimal::add)
       .divide(BigDecimal.valueOf(doubles.size())).doubleValue();

Enclose the tests I carried out to demonstrate my point:

    @Test
    public void testAvgDouble() {
        assertEquals(5.0, getAvgBasic(Stream.of(2.0, 4.0, 6.0, 8.0)), 1E-5);
        List<Double> doubleList = new ArrayList<>(Arrays.asList(Math.pow(10, 308), Math.pow(10, 308), Math.pow(10, 308), Math.pow(10, 308)));
        // Double.MAX_VALUE = 1.7976931348623157e+308
        BigDecimal doubleSum = BigDecimal.ZERO;
        for (Double d : doubleList) {
            doubleSum =  doubleSum.add(new BigDecimal(d.toString()));
        }
        out.println(doubleSum.divide(valueOf(doubleList.size())).doubleValue());
        out.println(getAvgUsingRealBigDecimal(doubleList.stream()));
        out.println(getAvgBasic(doubleList.stream()));
        out.println(getAvgUsingFakeBigDecimal(doubleList.stream()));
    }

    private double getAvgBasic(Stream<Double> doubleStream) {
        return doubleStream.mapToDouble(d -> d).average().orElse(0.0);
    }

    private double getAvgUsingFakeBigDecimal(Stream<Double> doubleStream) {
        return doubleStream.map(BigDecimal::valueOf)
                .collect(Collectors.averagingDouble(BigDecimal::doubleValue));
    }

    private double getAvgUsingRealBigDecimal(Stream<Double> doubleStream) {
        List<Double> doubles = doubleStream.collect(Collectors.toList());
        return doubles.stream().map(BigDecimal::valueOf).reduce(BigDecimal.ZERO, BigDecimal::add)
                .divide(valueOf(doubles.size()), BigDecimal.ROUND_DOWN).doubleValue();
    }

As for Integer or Long, correspondingly you can use BigInteger similarly.

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