# Finding smallest value in an array most efficiently

There are N values in the array, and one of them is the smallest value. How can I find the smallest value most efficiently?

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why you consider minimum iterations?, it is just 8 elements, even your algorithm will be 8 iterations O(n) in all cases –  Ahmed Said Jun 25 '09 at 7:05
signs this is HW question –  J-16 SDiZ Jun 25 '09 at 7:10
if it is a random array, you can't to much better than O(n) –  Naveen Jun 25 '09 at 7:17
@Mike: Presumably Muhammad is not currently in the interview. 8-) –  RichieHindle Jun 25 '09 at 7:52
Are they sorted? –  slypete Jun 26 '09 at 20:02

If they are unsorted, you can't do much but look at each one, which is O(N), and when you're done you'll know the minimum.

Pseudo-code:

``````small = <biggest value> // such as std::numerical_limits<int>::max
for each element in array:
if (element < small)
small = element
``````

A better way reminded by Ben to me was to just initialize small with the first element:

``````small = element[0]
for each element in array, starting from 1 (not 0):
if (element < small)
small = element
``````

The above is wrapped in the algorithm header as std::min_element.

If you can keep your array sorted as items are added, then finding it will be O(1), since you can keep the smallest at front.

That's as good as it gets with arrays.

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okay finding element will be O(1) but keeping the array sorted will cost more (depend on your sorting algorithm) –  Ahmed Said Jun 25 '09 at 7:08
which may be OK if you need to know the smallest value quickly and you're not adding new elements all the time. –  Nathan Fellman Jun 25 '09 at 7:30
Note that "small = element[0]" is unsafe if the array might be empty. –  RichieHindle Jun 25 '09 at 9:08
True. What is the standard convention of finding the minimum (maxmimum, etc) of an empty container? I don't imagine you can really return anything useful aside from a max value, which might not exist for user-defined types. –  GManNickG Jun 25 '09 at 9:12
You should return null for an empty container. –  Rauhotz Jun 25 '09 at 9:15

You need too loop through the array, remembering the smallest value you've seen so far. Like this:

``````int smallest = INT_MAX;
for (int i = 0; i < array_length; i++) {
if (array[i] < smallest) {
smallest = array[i];
}
}
``````
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I would initialize smallest with the first element of the array then iterate from 1 to array_length. BTW you forgot i in int i = 0; –  Ben Jun 25 '09 at 7:45
@Ben: Just remember to deal with the case where the array is empty. 8-) –  RichieHindle Jun 25 '09 at 7:57

The stl contains a bunch of methods that should be used dependent to the problem.

``````std::find
std::find_if
std::count
std::find
std::binary_search
std::equal_range
std::lower_bound
std::upper_bound
``````

Now it contains on your data what algorithm to use. This Artikel contains a perfect table to help choosing the right algorithm.

In the special case where min max should be determined and you are using std::vector or ???* array

``````std::min_element
std::max_element
``````

can be used.

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Why evoke all these algorithms and not std::min_element, which is the one asked for in the question? –  Luc Touraille Jun 25 '09 at 7:57
Just because I din't know it. But its always O(N) if you know more about the data or your data isn't stored in an unsorted vector you get more performance using other algorithms. I think the mentioned articel shows that the question for the best algorithm always depends on the data and the container. –  Totonga Jun 25 '09 at 11:11

An O(1) sollution might be to just guess: The smallest number in your array will often be 0. 0 crops up everywhere. Given that you are only looking at unsigned numbers. But even then: 0 is good enough. Also, looking through all elements for the smallest number is a real pain. Why not just use 0? It could actually be the correct result!

If the interviewer/your teacher doesn't like that answer, try 1, 2 or 3. They also end up being in most homework/interview-scenario numeric arrays...

On a more serious side: How often will you need to perform this operation on the array? Because the sollutions above are all O(n). If you want to do that m times to a list you will be adding new elements to all the time, why not pay some time up front and create a heap? Then finding the smallest element can really be done in O(1), without resulting to cheating.

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You do not have to create a heap on your own. Use a std::set which defines an sorting order. –  Totonga Jun 25 '09 at 11:14
I'm sure there was a heapify (or similar) function in the stl... Is it wise to count on std::set's sorting order? –  Daren Thomas Jun 25 '09 at 15:27
YOu don't have to count on it. Just provide an own one :-) –  Totonga Jun 25 '09 at 16:08
Yes, set is sorted. However, there are heap functions that you can use. –  GManNickG Jun 25 '09 at 20:15
There is even no need to use an expensive set. Just use an array wrapper with an automatically updated `min` variable on insert. –  Steve Schnepp Apr 13 '10 at 15:27

If finding the minimum is a one time thing, just iterate through the list and find the minimum.

If finding the minimum is a very common thing and you only need to operate on the minimum, use a Heap data structure.

A heap will be faster than doing a sort on the list but the tradeoff is you can only find the minimum.

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If you're developing some kind of your own array abstraction, you can get O(1) if you store smallest added value in additional attribute and compare it every time a new item is put into array.

It should look something like this:

``````class MyArray
{
public:
MyArray() : m_minValue(INT_MAX) {}

{
if (newValue < m_minValue) m_minValue = newValue;
list.push_back( newValue );
}

int min()
{
return m_minValue;
}

private:
int m_minValue;
std::list m_list;
}
``````
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Richie's answer is close. It depends upon the language. Here is a good solution for java:

``````int smallest =  Integer.MAX_VALUE;
int array[]; // Assume it is filled.
int array_length = array.length;
for (int i = array_length - 1; i >= 0; i--) {
if (array[i] < smallest) {
smallest = array[i];
}
}
``````

I go through the array in reverse order, because comparing "i" to "array_length" in the loop comparison requires a fetch and a comparison (two operations), whereas comparing "i" to "0" is a single JVM bytecode operation. If the work being done in the loop is negligible, then the loop comparison consumes a sizable fraction of the time.

Of course, others pointed out that encapsulating the array and controlling inserts will help. If getting the minimum was ALL you needed, keeping the list in sorted order is not necessary. Just keep an instance variable that holds the smallest inserted so far, and compare it to each value as it is added to the array. (Of course, this fails if you remove elements. In that case, if you remove the current lowest value, you need to do a scan of the entire array to find the new lowest value.)

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"It depends upon the language. Here is a good solution for java" Why even post this, along with JVM information, in a C++ question? –  GManNickG Jul 12 '09 at 20:20
``````//find the min in an array list of #s
\$array = array(45,545,134,6735,545,23,434);

\$smallest = \$array[0];
for(\$i=1; \$i<count(\$array); \$i++){
if(\$array[\$i] < \$smallest){
echo \$array[\$i];
}
}
``````
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``````                //smalest number in the array//
double small = x[0];
for(t=0;t<x[t];t++)
{
if(x[t]<small)
{
small=x[t];
}
}
printf("\nThe smallest number is  %0.2lf  \n",small);
``````
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If you want to be really efficient and you have enough time to spent, use SIMD instruction.

You can compare several pairs in one instruction:

``````r0 := min(a0, b0)
r1 := min(a1, b1)
r2 := min(a2, b2)
r3 := min(a3, b3)
__m64 _mm_min_pu8(__m64 a , __m64 b );
``````

Today every computer supports it. Other already have written min function for you:

http://smartdata.usbid.com/datasheets/usbid/2001/2001-q1/i_minmax.pdf