# Simple logic problem: Finding largest and smallest number among 3 numbers

I am creating a pseudocode in determining the smallest and largest number among 3 numbers:

My code is as follows:

``````If (x >= y)
largest = x
Smallest = y
Else
largest = y
Smallest =x

If (z >= largest)
Largest = z
If (z <= smallest)
Smallest = z
``````

Do you think this is correct? or are there better ways to solve this?

-
It should work, if no two numbers are equal. –  Mahesh Apr 26 '11 at 14:01
but what if 2 numbers are equal? why wouldn't it work? –  newbie Apr 26 '11 at 14:02
3,3,3. It might be good if the logic says all the numbers are equal. Though it is obvious that all the numbers are equal when the greatest and smallest are equal. –  Mahesh Apr 26 '11 at 14:03
ah i get your point... –  newbie Apr 26 '11 at 14:10

Let's say you've got arbitrary numbers `x, y, z`.

Pseudocode:

``````largest = x
smallest = x

if (y > largest)  then largest = y
if (z > largest)  then largest = z

if (y < smallest) then smallest = y
if (z < smallest) then smallest = z
``````

This is one way to solve your problem if you're using only variables, assignment, if-else and comparison.

If you have arrays and a sort operation defined over it, you can use this:

``````array = [x, y, z]
arrays.sort()
largest  = array[2]
smallest = array[0]
``````

If you have a `max` and `min` function that takes an array of numbers as an argument, you can use this:

``````array = [x, y, z]
largest  = max(array)
smallest = min(array)
``````

If you also have positional assignment using sets, you can use this:

``````array = [x, y, z]
(largest, smallest) = (max(array), min(array))
``````

If you have a data structure that will sort it's contents when inserting elements, you can use this:

``````array.insert([x, y, z])
smallest = array[0]
largest = array[2]
``````
-
On a rather academic side: Your algorithm has O(n log n) complexity. It can be done with O(n)... –  Lukas Eder Apr 26 '11 at 14:22
@Lukas: I'd say it's O(1) either way :) –  abeln Apr 26 '11 at 14:26
@abeln: `n` is the number of elements in the array for the general solution (in case there are more than 3 elements. you see, quite academic... ;-) ) –  Lukas Eder Apr 26 '11 at 14:27
@Lukas: I see only 3 numbers and no "general" solution (if there are n numbers, array[2] won't give you the maximum). I get your point, though. –  abeln Apr 26 '11 at 14:29
@abeln, you're right. –  Lukas Eder Apr 26 '11 at 14:37
``````#include <stdio.h>
#include <algorithm>
using namespace std;

int main ( int argc, char **argv ) {
int a = 1;
int b = 2;
int c = 3;

printf ( "MAX = %d\n", max(a,max(b,c)));
printf ( "MIN = %d\n", min(a,min(b,c)));

return 0;
}
``````
-
+1 for readability –  jv42 Apr 26 '11 at 14:11

Something like this would be more general (in Java):

``````// All available values.
int[] values = new int[] { 1, 2, 3 };

// Initialise smallest and largest to the extremes
int smallest = Integer.MAX_VALUE;
int largest = Integer.MIN_VALUE;

// Compare every value with the previously discovered
// smallest and largest value
for (int value : values) {

// If the current value is smaller/larger than the previous
// smallest/largest value, update the reference
if (value < smallest) smallest = value;
if (value > largest) largest = value;
}

// Here smallest and largest will either hold the initial values
// or the smallest and largest value in the values array
``````
-
``````if (x < y) {
minimum = min(x,z)
maximum = max(y,z)
} else {
minimum = min(y,z)
maximum = max(x,z)
}
``````
-