# Computational complexity of a program

I wrote the following program which should answer this question

Write an efficient function to find the first nonrepeated character in a string. For instance, the first nonrepeated character in “total” is 'o' and the first nonrepeated character in “teeter” is 'r'. Discuss the efficiency of your algorithm.

This is what I did:

``````#include <stdio.h>
#include <iostream>
#include <vector>
using namespace std;

class Node
{
public:
Node::Node(char ch)
{
c = ch;
next = NULL;
}
char c;
Node *next;
};

{
if(tail == NULL)
return new Node(ch);
else
{
Node *newN = new Node(ch);
tail->next = newN;
return newN;
}
}

void deleteNode(char ch, Node** head, Node**tail)
{
Node *prev = NULL;

while(cur!=NULL)
{
if(cur->c == ch)
{
// found cut it
if(prev == NULL)
{
{
// worst possible, just one element
return;
}
else
{
// Head cut off but not just first element
delete tmp;
return;
}
}
else
{
// delete normal node
if(*tail == cur)
{
// delete tail
Node *tmp = *tail;
*tail = prev;
delete tmp;
return;
}
else
{
// Normal node not tail
prev->next = cur->next;
delete cur;
return;
}
}
}
// no match keep searching
prev = cur;
cur = cur->next;
}
}

int  main()
{
char str[] = "total";
char htable[26];

memset(htable, 0, sizeof(char)*26);

for(unsigned int i=0;;i++)
{
if(str[i] == '\0')
break;

// check first match
char m = htable[str[i]-'a'];
switch(m)
{
case 0:
{
htable[str[i]-'a']++;
}break;
case 1:
{
// bam, cut it out
htable[str[i]-'a']++;
}break;
}

}

printf("First char without repetition: %c", head->c);
else
printf("No char matched");

return 0;
}
``````

and it works (although I didn't free the memory at the end of the program for the linked list). Basically I keep an hashtable with a 0 if a character hasn't been found yet, a 1 if it has been found once (and it's added to the linked list at the tail position) and 2 if there are at least two occurrences of it (and should be removed by the linked list).

What's this program's computational complexity with big-O notation?

Since this algorithm just passes once per each element I think it's O(n), although the removal of the values in the linked list (in the worst case possible) would require additional O(k^2) where k is the length of the alphabet used. Something like O(n+k^2) it's my pick and if the string is very long and the alphabet restricted the algorithm becomes very efficient.

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Based on your current program have you thought about what would happen if you did str = "toTal"? – Josh Feb 11 '13 at 23:35
I'm deliberately not using uppercase letters for simplicity's sake – Johnny Pauling Feb 12 '13 at 8:56

Well, yeah on the surface this looks like `O(N)` complexity, but you have introduced undesirable inefficiencies by using dynamic allocation.

However, because you call `deleteNode` and that has to search through a list, you no longer have `O(N)` complexity.

Think what happens if you have the string:

``````abcdefghijklmnopqrstuvwxyzzyxwvutsrqponmlkjihgfedcb
``````

This has a complexity of roughly `O(N*(N-1)/2)` because every `deleteNode` call must scan to the end of the remaining list.

All you really need to do is scan the string once and store the index of each character (if not found already), then scan that array for the lowest index. If you like, you can use an index of `-1` to indicate a character has not been encountered. That would be complexity of `O(2N)`

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or just keep in the hash table the position of the character, and on second encounter maximize it, when done scan the hash table for the min, O(N+26) – thAAAnos Feb 11 '13 at 23:50
This is not exactly correct, the maximum number of elements in the node is constant (here: length of the alphabet). Hence this leads to a complexity of O(N). See my answer below for explanation. At least that's my understanding of the current algorithm. – kfunk Feb 12 '13 at 13:25
Good point @kfunk - it is a weird implementation, but it is not O(N^2) as I have said. – paddy Feb 12 '13 at 21:53

From the algorithm description: "It has to be at least O(n) because you don't know if a character will be repeated until you've read all characters.", also see: Find the first un-repeated character in a string.

In your algorithm I don't see the O(k^2) complexity for removing the elements from the linked list. Deleting an element from a linked list is O(n) + O(1) = O(n), where O(n) is search, O(1) the erase once you've found the node.

As the linked list may only contain a maximum of k elements, the removal takes O(k). Since this is inside the for-loop => O(n*k).

Since k is constant => O(n) complexity -- however, it can implemented in a much simpler way. Again, see http://stackoverflow.com/a/2285561/592636 (using two arrays).

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