Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Here is what I have so far and it works for some test cases. The method works well with some arrays but not others. I am getting lost as to where the issue is. Description of method is in the comments above method.

    * Return an array of all the elements of a that are greater than val.
    * If a contains no elements greater than val, this method returns an
    * array of zero length.
    * @param a the array to be searched
    * @param val the reference value
    * @return the elements a[i] such that a[i] > val
   public static int[] greater(int[] a, int val) {
      if (a == null || a.length == 0) {

         throw new IllegalArgumentException();         

      int x = 0;

      int[] copy = Arrays.copyOf(a, a.length);


      int nearest = copy[0];   
      for (int i = 0; i < copy.length; i++) {

         if (Math.abs(nearest - val) > Math.abs(copy[i] - val)) {
            nearest = copy[i]; 
            x = i; 


      if ((x + 1) >= copy.length) {
         int[] badAnswer = new int[0];
         return badAnswer;
      else { 
         int[] answer = new int[(copy.length - 1) - x];
         int index = 0;
         while (index < answer.length) {

            answer[index] = copy[x + (index + 1)];


         return answer;


This works for this test using JUnit:

int a[] = {17,14,3,10,5,1,25};
@Test public void greaterTest() {
      int d[] = Selector.greater(a, 5);
      int p[] = {10, 14, 17, 25};
      Assert.assertArrayEquals(d, p);


but not for this one:

int z[] = {-5,-2,0,4,8,15,50};

@Test public void greaterTest2() {
   int d[] = Selector.greater(z, -99);
   int p[] = {-5,-2,0,4,8,15,50};
   Assert.assertArrayEquals(d, p);

also not for repeating integers that are all less than val:

int z[] = {0, 0, 0, 0, 0};

    @Test public void greaterTest2() {
       int d[] = Selector.greater(z, 51);
       int p[] = {};
       Assert.assertArrayEquals(d, p);

Any ideas on how to fix these gaps in my method?

share|improve this question
Your algo seems over-complicated: once the array is sorted, loop until you find an item > val and arraycopy whatever is at or after that index... – assylias Sep 2 '13 at 21:39
I am very new to java and am taking classes for it as we speak. Is there any way you could elaborate on your methodology? – user2738319 Sep 2 '13 at 21:43
@assylias is correct, is not java dependent what he say .. when you have you arrray sorted , just loop the array sorted and then return all the values until an item > val – nachokk Sep 2 '13 at 21:43
I believe i understand you now. How would i make an exception for a situation in which there are no greater values? – user2738319 Sep 2 '13 at 21:46
up vote 0 down vote accepted
public static int[] greater(int[] a, int val)
    int[] greater = new int[a.length];
    int greaterNumber = 0;

    for (int i = 0; i < greater.length; i++)
        if (a[i] > val)
            greater[greaterNumber++] = a[i];

    return Arrays.copyOf(greater, greaterNumber);
share|improve this answer
This only works if the array is sorted. – Janick Bernet Sep 2 '13 at 21:53

I see I am not the first answer, but mine's annotated:

private static int[] greater(int[] array, int v) {
    // create space for the potential values greater than 'v'
    int[] potentials = new int[array.length];
    // an 'insertion point' in to the potentials array.
    int ip = 0;
    for (int a : array) {
        // for each value in the input array....
        if (a > v) {
            // if it is greater than 'v', add it to the potentials
            // and increment the ip insertion point.
            potentials[ip++] = a;
    // return the valid values from the potentials
    return Arrays.copyOf(potentials, ip);
share|improve this answer

I would use the JDK, needing just two lines:

public static int[] greater(int[] a, int val) {
    return Arrays.copyOfRange(a, Math.abs(Arrays.binarySearch(a, val) + 1), a.length;

I have omitted parameter checking etc to emphasise the elegance and simplicity of this approach.

See a live demo on ideone.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.