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I've got a large array of primitive types (double). How do I sort the elements in descending order?

Unfortunately the Java API doesn't support sorting of primitive types with a Comparator.

One workaround would be to sort and then reverse:

double[] array = new double[1048576];
...
Arrays.sort(array);
// reverse the array
for(int i=0;i<array.length/2;i++) {
     // swap the elements
     double temp = array[i];
     array[i] = array[array.length-(i+1)];
     array[array.length-(i+1)] = temp;
}

This is slow - particularly if the array is already sorted quite well.

What's a better alternative?

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12 Answers 12

up vote 1 down vote accepted

I just created a library for sorting primitive arrays with a custom comparator. Your sample could be written (using Java 8) as:

double[] array = new double[1048576];
...
Primitive.sort(array, (d1, d2) -> Double.compare(d2, d1));

If you're using Maven, you can include it with:

<dependency>
    <groupId>net.mintern</groupId>
    <artifactId>primitive</artifactId>
    <version>1.0</version>
</dependency>

It should be quite fast, as it's a simple edit of java.util.TimSort, a stable merge sort originally developed for Python and optimized to take advantage of patterns in real-world data. It "sorts" already-sorted data in linear time!

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double[] array = new double[1048576];

...

By default order is ascending

To reverse the order

Arrays.sort(array,Collections.reverseOrder());
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31  
Arrays.sort(array, Collections.reverseOrder()); is a good solution but it will NOT work on primitives. It will only work on a class. –  Omnipresent Nov 27 '11 at 20:35

I think it would be best not to re-invent the wheel and use Arrays.sort().

Yes, I saw the "descending" part. The sorting is the hard part, and you want to benefit from the simplicity and speed of Java's library code. Once that's done, you simply reverse the array, which is a relatively cheap O(n) operation. here's some code I found to do this in as little as 4 lines.

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1  
link no longer works. –  nelaar Sep 11 at 12:34

Guava has methods for converting primitive arrays to Lists of wrapper types. The nice part is that these lists are live views, so operations on them work on the underlying arrays as well (similar to Arrays.asList(), but for primitives).

Anyway, each of these Lists can be passed to Collections.reverse():

int[] intArr = { 1, 2, 3, 4, 5 };
float[] floatArr = { 1.0f, 2.0f, 3.0f, 4.0f, 5.0f };
double[] doubleArr = { 1.0d, 2.0d, 3.0d, 4.0d, 5.0d };
byte[] byteArr = { 1, 2, 3, 4, 5 };
short[] shortArr = { 1, 2, 3, 4, 5 };
Collections.reverse(Ints.asList(intArr));
Collections.reverse(Floats.asList(floatArr));
Collections.reverse(Doubles.asList(doubleArr));
Collections.reverse(Bytes.asList(byteArr));
Collections.reverse(Shorts.asList(shortArr));
System.out.println(Arrays.toString(intArr));
System.out.println(Arrays.toString(floatArr));
System.out.println(Arrays.toString(doubleArr));
System.out.println(Arrays.toString(byteArr));
System.out.println(Arrays.toString(shortArr));

Output:

[5, 4, 3, 2, 1]
[5.0, 4.0, 3.0, 2.0, 1.0]
[5.0, 4.0, 3.0, 2.0, 1.0]
[5, 4, 3, 2, 1]
[5, 4, 3, 2, 1]

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Your implementation (the one in the question) is faster than e.g. wrapping with toList() and using a comparator-based method. Auto-boxing and running through comparator methods or wrapped Collections objects is far slower than just reversing.

Of course you could write your own sort. That might not be the answer you're looking for, but note that if your comment about "if the array is already sorted quite well" happens frequently, you might do well to choose a sorting algorithm that handles that case well (e.g. insertion) rather than use Arrays.sort() (which is mergesort, or insertion if the number of elements is small).

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1  
You can't call Arrays.toList on a double[] and have it do what you want; Arrays.toList needs to be passed a Double[] and not an array of primitive types. –  Eli Courtwright Oct 18 '08 at 17:19
    
Arrays.asList(new double[]{}); compiles ok. –  johnstok Oct 18 '08 at 17:27
    
But the result has type List<double[]> not List<Double>... –  johnstok Oct 18 '08 at 17:29
    
That's my point; I summarize this problem in my newly-edited answer. –  Eli Courtwright Oct 18 '08 at 17:34

There's been some confusion about Arrays.asList in the other answers. If you say

double[] arr = new double[]{6.0, 5.0, 11.0, 7.0};
List xs = Arrays.asList(arr);
System.out.println(xs.size());  // prints 1

then you'll have a List with 1 element. The resulting List has the double[] array as its own element. What you want is to have a List<Double> whose elements are the elements of the double[].

Unfortunately, no solution involving Comparators will work for a primitive array. Arrays.sort only accepts a Comparator when being passed an Object[]. And for the reasons describe above, Arrays.asList won't let you make a List out of the elements of your array.

So despite my earlier answer which the comments below reference, there's no better way than manually reversing the array after sorting. Any other approach (such as copying the elements into a Double[] and reverse-sorting and copying them back) would be more code and slower.

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1  
I'm stealing your code...sorry –  jjnguy Oct 18 '08 at 17:04
    
No apology necessary. Editing your answers to make them better is what SO is all about. I even upvoted your answer because it's the one that seems to be getting the most discussion. –  Eli Courtwright Oct 18 '08 at 17:08
    
I'll hit you up with a vote too. –  jjnguy Oct 18 '08 at 17:12
    
doesn't compile with array = double[]{} –  johnstok Oct 18 '08 at 17:13
    
it doesn't compile...:( –  jjnguy Oct 18 '08 at 17:18

I am not aware of any primitive sorting facilities within the Java core API.

From my experimentations with the D programming language (a sort of C on steroids), I've found that the merge sort algorithm is arguably the fastest general-purpose sorting algorithm around (it's what the D language itself uses to implement its sort function).

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You cannot use Comparators for sorting primitive arrays.

Your best bet is to implement (or borrow an implementation) of a sorting algorithm that is appropriate for your use case to sort the array (in reverse order in your case).

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Your algorithm is correct. But we can do optimization as follows: While reversing, You may try keeping another variable to reduce backward counter since computing of array.length-(i+1) may take time! And also move declaration of temp outside so that everytime it needs not to be allocated

double temp;

for(int i=0,j=array.length-1; i < (array.length/2); i++, j--) {

 // swap the elements
 temp = array[i];
 array[i] = array[j];
 array[j] = temp;

}

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storing the array length (and the half array length) in variables outside the loop is worthwhile. declaring 'temp' outside the loop makes no difference whatsover - there's no "allocation" involved. –  Alnitak Jan 8 '09 at 9:11

If performance is important, and the list usually already is sorted quite well.

Bubble sort should be one of the slowest ways of sorting, but I have seen cases where the best performance was a simple bi-directional bubble sort.

So this may be one of the few cases where you can benefit from coding it yourself. But you really need to do it right (make sure at least somebody else confirms your code, make a proof that it works etc.)

As somebody else pointed out, it may be even better to start with a sorted array, and keep it sorted while you change the contents. That may perform even better.

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Double[] d = {5.5, 1.3, 8.8};
Arrays.sort(d, Collections.reverseOrder());
System.out.println(Arrays.toString(d));

Collections.reverseOrder() doesn't work on primitives, but Double, Integer etc works with Collections.reverseOrder()

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With numerical types, negating the elements before and after sort seems an option. Speed relative to a single reverse after sort depends on cache, and if reverse is not faster, any difference may well be lost in noise.

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