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# How can i find the positions to the three lowest integers in an array?

I how can I find the positions of the three lowest integers in an array? I've tried to reverse it, but when I add a third number, it all goes to hell :p Does anybody manage to pull this one off and help me? :)

EDIT: It would be nice to do it without changing or sorting the original array a.

``````public static int[] lowerThree(int[] a)   {
int n = a.length;
if (n < 2) throw
new java.util.NoSuchElementException("a.length(" + n + ") < 2!");

int m = 0;      // position for biggest
int nm = 1;     // position for second biggest
if (a[1] > a[0]) { m = 1; nm = 0; }
int biggest = a[m];                // biggest value
int secondbiggest = a[nm];           // second biggest
for (int i = 2; i < n; i++) {
if (a[i] > secondbiggest) {
if (a[i] > biggest)   {
nm = m;
secondbiggest = biggest;
m = i;
biggest = a[m];
}
else    {
nm = i;
secondbiggest = a[nm];
}
}
} // for
return new int[] {m,nm};
}
``````

EDIT: I've tried something here but it still doesn't work. I get wrong output + duplicates...

``````  public static int[] lowerthree(int[] a)    {
int n= a.length;
if(n < 3)
throw new IllegalArgumentException("wrong");
int m = 0;
int nm = 1;
int nnm= 2;

int smallest = a[m];                //
int secondsmallest = a[nm];           /
int thirdsmallest= a[nnm];

for(int i= 0; i< lengde; i++)   {
if(a[i]< smallest)   {
if(smalles< secondsmallest)  {
if(secondsmallest< thirdsmallest)  {
nnm= nm;
thirdsmallest= secondsmallest;
}
nm= m;
secondsmallest= smallest;
}
m= i;
smallest= a[m];
}
else if(a[i] < secondsmallest) {
if(secondsmallest< thirdsmallest)  {
nnm= nm;
thirdsmallest= secondsmallest;
}
nm= i;
secondsmallest= a[nm];
}
else if(a[i]< thirdsmallest)    {
nnm= i;
thirdsmallest= a[nnm];
}
}
return new int[] {m, nm, nnm};
}
``````
-
Define hell please :) – Maroun Maroun Sep 16 '13 at 21:07
You just need one more variable and one more `if`. – PM 77-1 Sep 16 '13 at 21:08
It's really easy and does not require any fancy stuff. You just have to think it through VERY CAREFULLY, resisting the urge to "just try something" and instead thinking out the logic at each step. – Hot Licks Sep 16 '13 at 21:11
Understand that you need to keep track of both the positions and the values of the lowest three. Also, it helps a lot if you initialize the "value" vars to "max positive value" for whatever data type you're scanning. – Hot Licks Sep 16 '13 at 21:16
Were this C#, the answer would be `a.Select((it, i) => new {Item=it, Index=i}.OrderBy(pair=>pair.Item).Select(pair=>pair.Index).Take(3);` Alas, until Java 8 there's no straightforward equivalent, but the decorate-sort-undecorate approach should apply. That is, map your array to a list of objects that encapsulate the index and the value as properties, sort list that using a comparator that compares the values, pick the first three elements from this list, return the index property of those. – millimoose Sep 16 '13 at 21:16

Getting the top or bottom k is usually done with a partial sort. There are versions that change the original array and those that dont.

If you only want the bottom (exactly) 3 and want to get their positions, not the values, your solution might be the best fit. This is how I would change it to support the bottom three. (I have not tried to compile and run, there may be little mistakes but the genereal idea should fit)

``````public static int[] lowerThree(int[] a)   {
if (a.length < 3) throw
new java.util.NoSuchElementException("...");

int indexSmallest = 0;
int index2ndSmallest = 0;
int index3rdSmallest = 0;
int smallest = Integer.MAX_VALUE;
int sndSmallest = Integer.MAX_VALUE;
int trdSmallest = Integer.MAX_VALUE;

for (size_t i = 0; i < a.length; ++i) {
if (a[i] < trdSmallest) {
if (a[i] < sndSmallest) {
if (a[i] < smallest) {
trdSmallest = sndSmallest;
index3rdSmallest = index2ndSmallest;
sndSmallest = smallest;
index2ndSmallest = indexSmallest;
smallest = a[i];
indexSmallest = i;
continue;
}
trdSmallest = sndSmallest;
index3rdSmallest = index2ndSmallest;
sndSmallest = a[i];
index2ndSmallest = i;
continue;
}
trdSmallest = a[i];
index3rdSmallest = i;
}
}
return new int[] {indexSmallest, index2ndSmallest, index3rdSmallest};
}
``````
-

This will have the three lowest numbers, need to add some test cases..but here is the idea

``````int[] arr = new int[3];
arr[0] = list.get(0);

if(list.get(1) <= arr[0]){
int temp = arr[0];
arr[0] = list.get(1);
arr[1] = temp;
}
else{
arr[1] = list.get(1);
}

if(list.get(2) < arr[1]){
if(list.get(2) < arr[0]){
arr[2] = arr[1];
arr[1] = arr[0];
arr[0] = list.get(2);
}
else{
arr[2] = arr[1];
arr[1] = list.get(2);
}
}else{
arr[2] = list.get(2);
}

for(int integer = 3 ; integer < list.size() ; integer++){

if(list.get(integer) < arr[0]){
int temp = arr[0];
arr[0] = list.get(integer);
arr[2] = arr[1];
arr[1] = temp;
}
else if(list.get(integer) < arr[1]){
int temp = arr[1];
arr[1] = list.get(integer);
arr[2] = temp;
}
else if(list.get(integer) <= arr[2]){
arr[2] = list.get(integer);
}
}
``````
-

I'd store the lowest elements in a LinkedList, so it is not fixed on the lowest 3 elements. What do you think?

``````public static int[] lowest(int[] arr, int n) {

for(int i = 0; i < arr.length; i++) {

//iterate over all elements in the which are of interest (n first)
for(int j = 0; !added && j < n && j < res.size(); j++) {
if(arr[i] < res.get(j)) {
res.add(j, i); //the element is less than the element currently considered
//one of the lowest n, so insert it
added = true; //help me get out of the loop
}
}
//Still room in the list, so let's append it
if(!added && res.size() < n) {
}
}

//copy first n indices to result array
int[] r = new int[n];
for(int i = 0; i < n && i < res.size(); i++) {
r[i] = res.get(i);
}

return r;

}
``````
-
I think that calling `get(int)` on a linked list is a `O(n)` operation and shouldn't be put into a loop. But that's just me. – corsiKa Sep 16 '13 at 22:30
but get(int) will only be called for the first n elements of the list.. if you use the function for finding a lot of lowest elements, that sure would be an issue, but it would also miss the purpose of the function. – brickBreaker Sep 16 '13 at 23:45

In simple words, you need to compare every new element with the maximum of the three you have at hand, and swap them if needed (and if you swap, max of the three has to be recalculated).

I would use 2 arrays of size 3 each:

``````  arrValues = [aV1  aV2  aV3]    (reals)
arrPointers = [aP1  aP2  aP3]  (integers)
``````

and a 64 bit integer type, call it `maxPointer`.

I will outline the algorithm logic, since I am not familiar with Java:

``````  Set arrValues = array[0] array[1] array[2]  (three first elements of your array)
Set arrPointers = [0 1 2]   (or [1  2  3] if your array starts from 1)

Iterate over the remaining elements. In each loop:

Compare the Element scanned in this iteration with arrValues[maxPointer]
If Element <= arrValues[maxPointer],
remove the maxPointer element,
find the new max element and reset the maxPointer
Else
scan next element
End If
Loop
``````

At termination, `arrPointers` should have the positions of the three smallest elements. I hope this helps?

-

you can do it in 3 iterations.

You need two extra memory, one for location and one for value.

First iteration, you will keep the smallest value in one extra memory and its location in the second. As you are iterating, you compare every value in the slot with the value slot you keep in the memory, if the item you are visiting is smaller than what you have in your extra value slot, you replace the value as well as the location.

At the end of your first iteration, you will find the smallest element and its corresponding location.

You do the same for second and third smallest.

-
Your solution runs in O(3n) time. Why not just make each comparison as you traverse the array? – codethulhu Sep 16 '13 at 21:17
who thought u algorithms? i said 3 iterations. that is not O(3n). – DarthVader Sep 16 '13 at 21:18
3 iterations through the array, if the array is of length n, is 3n. – codethulhu Sep 16 '13 at 21:19
@codethulhu By definition of the big O notation, O(3n) is the same as O(n). – Henry Sep 16 '13 at 21:32
@Henry you seem to think that doing it all in one loop takes it from 3n to n, when it doesn't, really. You're still doing 3*n comparisons whether you do 1 loop or 3 loops. Putting it all into one loop just makes the time you spend on each spot 3 times bigger. – corsiKa Sep 16 '13 at 22:10