# Search sorted List<Long> for closest and less than

Consider some `long` called `X` and a sorted `List<Long>`. What is the most efficient algorithm to find the index or value in the `List<Long>` that is (i) less than `X`, and (ii) The closest to `X` on the number line (assuming condition (i) has been satsified)?

For example this could be a problem setup:

``````long X = 500;
List<Long> foo = new Arraylist<Long>();

Collections.sort(foo); // It's always sorted.
``````

I would like the algorithm to either return `499` or to return the index associated with `499` (in this case `i=2`).

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Are the values in the list unique? –  Rohit Jain Oct 5 '13 at 13:57
@RohitJain Yes sorry about the boo boo –  user2763361 Oct 5 '13 at 13:57
Is the list always sorted? –  Jeroen Vannevel Oct 5 '13 at 13:57
@JeroenVannevel Yes the list is always sorted using `Collections.sort()` –  user2763361 Oct 5 '13 at 14:00
Please see this link for find closest value in the list.. stackoverflow.com/questions/26885198/… –  Nikhil Gupta Nov 22 '14 at 22:40

Given that the values in your list are unique, I would suggest you to use a `Set`, more specifically a `TreeSet`, as you are anyways sorting your list. You can use the `NavigableSet#floor(E)` method which does exactly what you want.

Returns the greatest element in this set less than or equal to the given element, or `null` if there is no such element.

So, the code would look like:

``````long X = 500;
NavigableSet<Long> foo = new TreeSet<Long>();

System.out.println(foo.floor(X));   // 499
``````

The method would also work for user-defined objects. Just you have to pass a `Comparator<YourClass>` to the `TreeSet` constructor while instantiating it.

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Does my `foo` have to be sorted in the `NavigableSet`? –  user2763361 Oct 5 '13 at 14:03
@user2763361 They will automatically be sorted, as you are using a `TreeSet` here. It orders the element based on their natural ordering, or on whatever `Comparator` you use while creating it. –  Rohit Jain Oct 5 '13 at 14:03
Is there a similar object for when my list contains repeat values (but could still be sorted)? –  user2763361 Oct 5 '13 at 14:09
For repeat values this won't hold. The method is applicable just for `Set`. May be you can convert the list to a `Set`, use this method to find the closest match, and then get all those match from the list. That would of course require you to create an extra object of `Set`. –  Rohit Jain Oct 5 '13 at 14:10
How would I typecast a `List<Long>` called `foo` to a `TreeSet<Long>`? Do I just put it into the constructor? –  user2763361 Oct 5 '13 at 14:28

/*Find the Closest Number in the list * @param list of Integers * @param num to the number find their closest * @return Closest number * */

``````public static int findClosestNumber(List list, int num) {
if (list.size() > 0) { // Check list does not empty
int smaller =
(Integer)Collections.min(list); // get min number from the list
int larger =
(Integer)Collections.max(list); // get max number from the list

for (int i = 0; i < list.size(); i++) { //Traverse list
if (num == (Integer)list.get(i))   //if find the passed number in the list
return num;                     //than return num
if (num > (Integer)list.get(i) && smaller < (Integer)list.get(i)) // find nearest smaller
smaller = (Integer)list.get(i);
if (num < (Integer)list.get(i) && larger > (Integer)list.get(i)) // find nearest larger
larger = (Integer)list.get(i);
}
return (num - smaller < larger - num ? smaller : larger); // return closest number
}
return 0;
}
``````

}

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You can use java's `Collections.binarySearch` for this, since your list is sorted.

In the spec, binary search returns:

the index of the search key, if it is contained in the list; otherwise, (-(insertion point) - 1). The insertion point is defined as the point at which the key would be inserted into the list: the index of the first element greater than the key, or list.size() if all elements in the list are less than the specified key. Note that this guarantees that the return value will be >= 0 if and only if the key is found.

First off, if you binary search and the element is in the list, you'll get a positive value (the index of the element), and can just return that (or if you still want an element that's less you can just walk backwards from there until you find one).

Otherwise, if you search for something that isn't in the list you can work backward from the return value to the index you want. If you search for 500 in your example list, the algorithm would return (-3 - 1) = -4. Thus, you can add 1 to get back to the insertion point (-3), and then multiply by -1 and subtract 1 to get the index BEFORE the first element GREATER than the one you searched for, which will either be an index that meets your 2 criteria OR -1 if all elements in the list are greater than the one you searched for.

The advantage of using binary search over a tree set is that it will likely have less overhead.

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