2

I have a list which I transform using guava's Lists.transform function. Later, when I try to sort the list using Collections.sort(), I get an UnsupportedOperationException.

My code look's like this:

private List<SelectItemInfo> convertToSelectItemList(
        final List<String> dataOwnersOfActiveQualifiers)
    {

        final List<SelectItemInfo> dataOwnersSelectItemList = transform(dataOwnersOfActiveQualifiers,
            new Function<String, SelectItemInfo>()
            {
                public SelectItemInfo apply(final String input)
                {
                    final Employee employee = getLdapQuery().findEmployeesByIdOrLogin(input);
                    return new SelectItemInfo(input, employee.toStringNameSurname());
                }
            });
        Collections.sort(dataOwnersSelectItemList, this.comparator);
        return dataOwnersSelectItemList;
    }

I am not sure why I am getting this error.

  • What is the actual List implementation of dataOwnersSelectItemList that is being returned? – Dan W Oct 30 '18 at 13:56
  • 7
    Well, the JavaDoc on Lists.transform() states: The add, addAll and set methods are unsupported in the returned list. - and at least set() would be needed to sort a list. – Thomas Oct 30 '18 at 13:56
2

Collections.sort needs to be able to call set on the list and have it do the expected thing. The list returned by transform doesn't support its set method (it's a "read only" list).

An easy fix is to create a new list and sort that

List<SelectItemInfo> sortedCopy = new ArrayList(dataOwnersSelectItemList);
Collections.sort(sortedCopy, this.comparator);
// use sortedCopy

Streams are a better solution

  • 1
    "Streams are a better solution" is too general an assertion for my taste. The execution models (generally speaking lazy, view collections of Guava vs. traversable once Stream) have different use cases. E.g. from a memory allocation point of view, Guava allocates nearly nothing, while a stream+filter+collect allocates more than double the space. Fine answer otherwise. – GPI Oct 30 '18 at 14:24
  • 1
    @GPI "allocates more than double the space" - where did you get that from? All I can see is that the collect() call allocates space analogous to new ArrayList(<list transformed by Guava>), and the filter operations are lazy, one-element-at-a-time, and therefore also allocate virtually nothing, analogous to Guava's lazy operations. – DodgyCodeException Oct 30 '18 at 15:33
  • Collector.toList collects to ArrayList::new, which basically is an array of size 10. When the 11th element is accumulated, the array has to be grown, which ArrayList does by allocating a new one of size 15 and copying everything back. When the 16th element arrives ? Another array (of size 22, another full copy). When the 23rd comes along... All over. So to collect a 100 element list, you allocate at best one 100-sized array (which I mean by "double"), but you may allocate 10+15+22+33+49+73+109 sized-arrays ("more than double). Put that in a hot loop, and watch your GC having fun. – GPI Oct 30 '18 at 16:46
  • This is not to say that Streams are terrible. E.g. lazy views are terrible CPU-wise if you have to recompute them 10s of time. It just is a different tool, for a different use case. – GPI Oct 30 '18 at 16:51
  • @GPI I see what you mean. You can use Collectors.toCollection(() -> new ArrayList<>(dataOwnersOfActiveQualifiers.size())) so that it initializes the result list with exactly the required capacity. Granted it doesn't look quite as readable as Collectors.toList(). – DodgyCodeException Oct 31 '18 at 14:49

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