# minimum absolute difference between two numbers in an array

Given two arrays, A and B, i want to find a number from A and a number from B, such that the absolute difference between the two numbers is the smallest. Eg: A = 1 2 9 B= 4 5 6

Ans : 2,4 as Math.abs(2-4) =2

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What programming language? If it doesn't matter, use code golf. –  Peter Olson Mar 13 '11 at 15:59

Sort the two arrays, then iterate them in parallel: For each item in `A`, search the closest item in `B` by a linear search. Start the linear search in `B` where you stopped for the previous item of `A`. Always remember the minimal distance found so far.

The time complexity is O(m log m + n log n) for sorting and O(m + n) for the final search, where m and n are the respective lengths of `A` and `B`.

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suppose arrays are (10,11,14) (4,6,8) in this case don't you yours wil be an O(n^2) algorithm. –  Algorithmist Mar 13 '11 at 16:04
If the arrays are already sorted, you might want to use binary search. –  phimuemue Mar 13 '11 at 16:04
@Algorithmist: No, the search will be O(m+n), since you always pick up where you stopped last time. The example you gave would even allow for an early-out, since you will consume all of `B` for the first item in `A`, so you don't have to look any further. –  Sven Marnach Mar 13 '11 at 16:27
@phimuemue: I think a linear search is adequate here -- the search part will only have complexity O(m + n), whereas a binary search would be O(n log m). You can stop searching `B` as soon as the distance from the currently considered item of `A` would increase again. –  Sven Marnach Mar 13 '11 at 16:30
Very good point. –  phimuemue Mar 13 '11 at 17:09

it could be done in O(nlogm + mlogm)=O(nlogm):
(m is the smallest array`s length)
assume B is the smaller array

``````sort array B
minimum =  | A[0]-B[0] |
for each a in A:
binary search for a in B - return the closest numbers let the numbers be b1,b2 (*)
if min{|b1-a|,|b2-a|} is smaller then the previous minimum - store it as the new minimum
``````

(*) binary search stops when you are closest to the number (or finds it if it exists)
checking first which is smaller (A or B) will ensure better performance.-

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check this, maybe it gives you an idea so you adapt it to your needs:

``````#define TOP 2147483647
#define true 1
#define false 0

/* finds the minimum (absolute value) of vector vec */

void Vector_Min_Not_0(vector *vec, int *min, int *index)
{
int m, size, i, ind, aux;

size = vec->size;
m = TOP;
ind = -1;
for (i = 0; i < size; i++)
if (vec->p[i] != 0)
if (m > (aux = abs(vec->p[i]))) {
ind = i;
m = aux;
}
if (ind == -1)
*min = 1;
else
*min = m;
*index = ind;
}
``````

you would call it, having a structure:

``````typedef struct vector {
int size;
int *p;
} vector;

vector vec_A;
int min, index, *p;
Vector_Min_Not_0(&vec_A, &min, &index);
``````
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I am making the assumption that the numbers in the Array will be floats. In Ruby :

``````def smaller_abs(array1, array2)
array1.product(array2).each_with_index do |ar,i|
if i==0
dif = (ar[0]-ar[1]).abs
pair = ar
next
end
pair = (ar[0]-ar[1]).abs > dif ? pair : ar
end
pair
end
``````

I am not an algorithm guru but that must work (haven't checked out). Hope I helped!

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1. Sort both arrays
2. Combine the two numbers using some tag to differentiate them. e.g A = 1 9 2 B= 5 4 6

After sorting:

A = 1 2 9 B= 4 5 6

Combine the array: C = 1a 2a 4b 5b 6b 9a

Now do a linear search and find the difference between the consecutive terms with different tag. Ans: 2a 4b.

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