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Assuming I have

final Iterable<String> unsorted = asList("FOO", "BAR", "PREFA", "ZOO", "PREFZ", "PREFOO");

What can I do to transform this unsorted list into this:


(a list which begin with known values that must appears first (here "PREFA" and "PREFZ") and the rest is alphabetically sorted)

I think there are some usefull classes in guava that can make the job (Ordering, Predicates...), but I have not yet found a solution...

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Must I accept a solution in this type of exercise ? – sly7_7 Jun 25 '10 at 13:26
up vote 1 down vote accepted

You specifically mentioned guava; along with Sylvain M's answer, here's another way (more as an academic exercise and demonstration of guava's flexibility than anything else)

// List is not efficient here; for large problems, something like SkipList 
// is more suitable
private static final List<String> KNOWN_INDEXES = asList("PREFZ", "PREFA");

private static final Function<Object, Integer> POSITION_IN_KNOWN_INDEXES 
    = new Function<Object, Integer>() {
  public Integer apply(Object in) {
     int index = KNOWN_INDEXES.indexOf(in);
     return index == -1 ? null : index;


List<String> values = asList("FOO", "BAR", "PREFA", "ZOO", "PREFZ", "PREFOO");


So, in other words, sort on natural order of the Integer returned by List.indexOf(), then break ties with natural order of the object itself.

Messy, perhaps, but fun.

share|improve this answer
Hi Cowan, I try your solution, but it does not compile. And when I modify it to compile (by adding asList() on the ordering and helping type inference), I got an NPE... – sly7_7 Jun 25 '10 at 7:52
Sorry Sylvain, wasn't near a compiler when I wrote that. Have fixed it. For some reason I thought Ordering.compound() was a static method; also you need nullsLast().onResultOf() rather than onResultOf().nullsLast() otherwise it's chaining things in the wrong order. Works for me now as-is. – Cowan Jun 25 '10 at 12:43
Now it works :) Thanks Cowan – sly7_7 Jun 25 '10 at 12:45
As I'm recommended to accept an answer, I accept this one because it's the most concise I've read. Well, it's subjective, but it's my preffered answer (concision + use of guava) – sly7_7 Jul 6 '10 at 12:10

I would keep separate lists.

One for known values and unknown values. And sort them separately, when you need them in a one list you can just concatenate them.

knownUnsorted.addAll(unsorted.size - 1, unknonwUnsorted);
share|improve this answer
I think it's fine, but I have to separate the list in entry. – sly7_7 Jun 24 '10 at 14:12

I suggest filling List with your values and using Collections.sort(...).

Something like

Collections.sort(myList, new FunkyComparator());

using this:

class FunkyComparator implements Comparator {

    private static Map<String,Integer> orderedExceptions =
        new HashMap<String,Integer>(){{ 
            put("PREFZ", Integer.valueOf(1));
            put("PREFA", Integer.valueOf(2));

    public int compare(Object o1, Object o2) {
        String s1 = (String) o1;
        String s2 = (String) o2;
        Integer i1 = orderedExceptions.get(s1);
        Integer i2 = orderedExceptions.get(s2);

        if (i1 != null && i2 != null) {
            return i1 - i2;
        if (i1 != null) {
            return -1;
        if (i2 != null) {
            return +1;
        return s1.compareTo(s2);
share|improve this answer
not bad, but Set will kill duplicates. Also, no need for dummy equals() – unbeli Jun 24 '10 at 14:03
Hum, well, how can I transform this if I have more than two known values ? – sly7_7 Jun 24 '10 at 14:10
@unbeli both good points. Since switching from SortedSet to List doesn't change the gist of my answer, I've updated the 'usage' of the Comparator for a List. – Chadwick Jun 24 '10 at 14:15
@Sylvain_M, simply add as many 'known values' as you need in the orderedExceptions map. Be sure that the integers used are unique and ordered as you want them - the map keeps the lookup fast, but the integers are what dictate the final ordering. – Chadwick Jun 24 '10 at 14:16
Oh, yes, so it's not too hard to maintain. Thanks – sly7_7 Jun 24 '10 at 14:21

Note: This is not the most efficient solution. It is just a simple, straightforward solution that gets the job done.

I would first use Collections.sort(list) to sort the list.

Then, I would remove the known items, and add them to the front.

String special = "PREFA";
if (list.remove(special)
    list.add(0, special);

Or, if you have a list of array of these values you need in the front you could do:

String[] knownValues = {};
for (String s: knownValues) {
    if (list.remove(s))
        list.add(0, s);
share|improve this answer
list.remove() returns a boolean, not the object what you remove. But I think it could work: for (final String s : asList("PREFA", "PREFZ")) { if (list.remove(s)) { list.add(0, s); } } – sly7_7 Jun 24 '10 at 13:33
@Syl Oops, I got the two removes mixed up. I will fix it, thanks. – jjnguy Jun 24 '10 at 13:38
except you can't sort an Iterable and dumping it to a list first makes it ugly, as you can separate unknowns already when dumping. – unbeli Jun 24 '10 at 13:57
@unbeli: I agree with you, but now, it seems the simpliest way to do the job – sly7_7 Jun 24 '10 at 14:13
@Sylvain if you want the simplest way, don't tag it as 'puzzle' and 'excercise' ;) – unbeli Jun 24 '10 at 14:22

Since I'm a fan of the guava lib, I wanted to find a solution using it. I don't know if it's efficient, neither if you find it as simple as others solution, but it's here:

final Iterable<String> all = asList("FOO", "BAR", "PREFA", "ZOO", "PREFOO", "PREFZ");
final List<String> mustAppearFirst = asList("PREFZ", "PREFA");
final Iterable<String> sorted = 
            Ordering.explicit(mustAppearFirst).sortedCopy(filter(all, in(mustAppearFirst))),
            Ordering.<String>natural().sortedCopy(filter(all, not(in(mustAppearFirst)))));
share|improve this answer
Nice approach. Had another go at a 'guavaey' approach in my answer, if you're curious – Cowan Jun 24 '10 at 21:39

I would also use Collections.sort(list) but I think I would use a Comparator and within the comparator you could define your own rules, e.g.

class MyComparator implements Comparator<String> {

    public int compare(String o1, String o2) {
        // Now you can define the behaviour for your sorting.
        // For example your special cases should always come first, 
        // but if it is not a special case then just use the normal string comparison.

        if (o1.equals(SPECIAL_CASE)) {
            // Do something special
        // etc.
        return o1.compareTo(o2);


Then sort by doing:

Collections.sort(list, new MyComparator());
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