I want to write a program to find the n-th smallest element without using any sorting technique..
Can we do it recursively, divide and conquer style like quick-sort?
If not, how?
I want to write a program to find the n-th smallest element without using any sorting technique..
Can we do it recursively, divide and conquer style like quick-sort?
If not, how?
What you are referring to is the Selection Algorithm, as previously noted. Specifically, your reference to quicksort suggests you are thinking of the partition based selection.
Here's how it works:
This algorithm is also good for finding a sorted list of the highest m elements... just select the m'th largest element, and sort the list above it. Or, for an algorithm that is a little bit faster, do the Quicksort algorithm, but decline to recurse into regions not overlapping the region for which you want to find the sorted values.
The really neat thing about this is that it normally runs in O(n) time. The first time through, it sees the entire list. On the first recursion, it sees about half, then one quarter, etc. So, it looks at about 2n elements, therefore it runs in O(n) time. Unfortunately, as in quicksort, if you consistently pick a bad pivot, you'll be running in O(n^{2}) time.
This task is quite possible to complete within roughly O(n)
time (n
being the length of the list) by using a heap structure (specifically, a priority queue based on a Fibonacci heap), which gives O(1)
insertion time and O(log n)
removal time).
Consider the task of retrieving the m-th smallest element from the list. By simply looping over the list and adding each item to the priority queue (of size m
), you can effectively create a queue of each of the items in the list in O(n)
time (or possibly fewer using some optimisations, though I'm not sure this is exceedingly helpful). Then, it is a straightforward matter of removing the element with lowest priority in the queue (highest priority being the smallest item), which only takes O(log m)
time in total, and you're finished.
So overall, the time complexity of the algorithm would be O(n + log n)
, but since log n << n
(i.e. n
grows a lot faster than log n
), this reduces to simply O(n)
. I don't think you'll be able to get anything significantly more efficient than this in the general case.
You can use Binary heap, if u dont want to use fibonacci heap.
Algo:
Contruct the min binary heap from the array this operation will take O(n) time.
Since this is a min binary heap, the element at the root is the minimum value.
So keep on removing element frm root, till u get ur kth minimum value. o(1) operation
Make sure after every remove you re-store the heap kO(logn) operation.
So running time here is O(klogn) + O(n)............so it is O(klogn)...
Two stacks can be used like this to locate the Nth smallest number in one pass.
I generally agree to Noldorins' optimization analysis.
This stack solution is towards a simple scheme that will work (with relatively more data movement -- across the two stacks). The heap scheme reduces the fetch for Nth smallest number to a tree traversal (log m
).
If your target is an optimal solution (say for a large set of numbers or maybe for a programming assignment, where optimization and the demonstration of it are critical) you should use the heap technique.
The stack solution can be compressed in space requirements by implementing the two stacks within the same space of K elements (where K is the size of your data set). So, the downside is just extra stack movement as you insert.
Here is the Ans to find Kth smallest element from an array:
#include<stdio.h>
#include<conio.h>
#include<iostream>
using namespace std;
int Nthmin=0,j=0,i;
int GetNthSmall(int numbers[],int NoOfElements,int Nthsmall);
int main()
{
int size;
cout<<"Enter Size of array\n";
cin>>size;
int *arr=(int*)malloc(sizeof(int)*size);
cout<<"\nEnter array elements\n";
for(i=0;i<size;i++)
cin>>*(arr+i);
cout<<"\n";
for(i=0;i<size;i++)
cout<<*(arr+i)<<" ";
cout<<"\n";
int n=sizeof(arr)/sizeof(int);
int result=GetNthSmall(arr,size,3);
printf("Result = %d",result);
getch();
return 0;
}
int GetNthSmall(int numbers[],int NoOfElements,int Nthsmall)
{
int min=numbers[0];
while(j<Nthsmall)
{
Nthmin=numbers[0];
for(i=1;i<NoOfElements;i++)
{
if(j==0)
{
if(numbers[i]<min)
{
min=numbers[i];
}
Nthmin=min;
}
else
{
if(numbers[i]<Nthmin && numbers[i]>min)
Nthmin=numbers[i];
}
}
min=Nthmin;
j++;
}
return Nthmin;
}
The simplest way to find the nth largest element in an array without using any sorting methods.
public static void kthLargestElement() {
int[] a = { 5, 4, 3, 2, 1, 9, 8 };
int n = 3;
int max = a[0], min = a[0];
for (int i = 0; i < a.length; i++) {
if (a[i] < min) {
min = a[i];
}
if (a[i] > max) {
max = a[i];
}
}
int max1 = max, c = 0;
for (int i = 0; i < a.length; i++) {
for (int j = 0; j < a.length; j++) {
if (a[j] > min && a[j] < max) {
max = a[j];
}
}
min = max;
max = max1;
c++;
if (c == (a.length - n)) {
System.out.println(min);
}
}
}