# is this an efficient algorithm?

Hi this is my algorithm which takes an array with float numbers that are sorted before.because I have thought that when we sort an array before using this algorithm ;its worst case performance will be O(nlogn) but without sorting it will be O(n^2).So I think that this algorithm will be OK for finding one duplicate number.am I right?thanks

``````1     Algorithm Duplicate_Number(a , n)
2     // Find one duplicate number in a[1 :n ]
3     {
4              temp: = a [0];
5              while (i<n) do
6              {
7                     if (temp=a[i])
8                     {
9                           return a[i]; break;
10                    }
11                    else
12                         temp: =a [++i];
13           }
``````
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I don't think you can really get much more efficient than that... –  cdhowie Nov 19 '10 at 17:43
If you are sorting before ... you are comparing before ... –  belisarius Nov 19 '10 at 17:48
@belisarius: wow :) ... that's really a great comment. Better algorithm should be available using that idea. It would require only a modification of some of the sorting algorithms. –  hummingBird Nov 19 '10 at 17:56
I prefer to do `if (temp<>a[i]) ... else return ...` because the algorithm will return value after 3n/4 iteration (may be nothing) so in most case is better to avoid `else` jump, you decrease one jump and it's speed will be better a little. –  Saeed Amiri Nov 19 '10 at 18:38

Well, you never defined "i", but if your array is sorted, this will work for any totally ordered type- one where there is only one correct sort order for a collection- and float is such a type.

Floats are rarely exactly equal to each other, especially if they went through any actual steps of calculation beforehand. It is usually better to do a check for if floating point numbers are within a small range of each other, to handle some of the inevitable error in the calculations due to rounding. If you aren't doing computing steps ahead of time and are just taking input, this should work.

Are you familiar with hash tables? This problem can be solved in O(n) time. You don't need the array to be sorted, so you don't spend O(n lg n) time sorting it. For each element, check if it is already in the hash table; return it if it is, and insert it into the hash table if it isn't. Insert and read operations are O(1) (amortized, and assuming a good hash function) on a hash table, so that should meet your needs. A hash table cannot do the approximate-equality match, though- hash tables are only useful for exact value lookups, because they don't keep data in a sorted order.

A fully generic Java implementation that should work for any type that defines a meaningful hash function and a meaningful equals (assuming Object's default reference behavior is wrong):

``````import java.util.HashSet;

class DuplicateValue{
public static <T> duplicateValue(T[] values){
HashSet<T> store = new HashSet<T>();
for(T item : values){
if(store.contains(item)){
return item;
}
}
return null; //no duplicate found
}
}
``````

This works for literally any data type, since Java provides built-in HashCode and Equals functions. That said, if you're using a custom data type, be sure to override .hashCode and .equals so this provides meaningful results. float isn't an object, but it can be autoboxed into Float, which is.

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thanks ,I have get something but can you clarify your suggestion for hash table with writing a little algorithm? –  user472221 Nov 19 '10 at 18:26
I'm not quite sure which programming language this is, so I don't know the hashtable libraries available to you. C++ doesn't have one built in. I can write Java code, though. –  Adam Norberg Nov 19 '10 at 19:20
Edited to provide a Java implementation of the HashSet solution. –  Adam Norberg Nov 19 '10 at 19:28
NOW I get what you mean! yes it is really nice way :) thanks a lot –  user472221 Nov 19 '10 at 20:10

In theory, the algorithm could be made O(n) by storing all numbers inspected so far in a hash and looking it up on every iteration. Given look-ups are O(1), it can be considered faster.

In practice, speedup depends on the speed of the hash function and memory available for storing the additional data.

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You should mention that this doesn't require sorting the original array. –  Jim Mischel Nov 19 '10 at 18:10

You didn't initialize i.

Once that is done, go through an array, comparing each two 'neighbours'.

Also, since you're using floats, you might want to consider if some two numbers are close enough... This isn't necessary for your algorithm, though, but if those numbers are generated by some calculations, it might be useful. You could, for example, use some epsilon = 0.000000000000000001 or smt.

So, algorithm very similar to yours might be:

``````i:= 1
tmp:= a[0];
while(i < n) {
if(a[i] = tmp) {
print "duplicate number: " + tmp
break
} else {
tmp:=a[i]
i++
}
}
``````

P.S. And yes, sorting an array is a good idea. This chunk of code has complexity O(n) when sorted array is used.

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I added an algorithm similar enough. Keep in mind that this algorithm doesn't do much - it simply outputs the duplicate number. However, it should do the trick. –  hummingBird Nov 19 '10 at 17:52
thanks! but what is a tricky point here? is it :"it might be useful. You could, for example, use some epsilon = 0.000000000000000001 or smt." –  user472221 Nov 19 '10 at 17:59
no, there is no trick. however, floats aren't very grateful for straighforward comparing :)... If those numbers are results of certain number of float operations, they are rounded values... So instead of `a[i]=tmp` one should use `abs( a[i] - tmp ) < epsilon`. No trick, really :).. Also, this is a preffered way when working with floats. –  hummingBird Nov 19 '10 at 18:03

Performance is going to be a lot better than you expect, given the bug that forces it to always finish after the first iteration of the loop. I think you want `i++`, not `++i`.

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A simpler for loop will be just as efficient, but much more readable:

``````for(int i=1; i<n; i++)
{
if(a[i] == a[i-1])
return a[i];
}
``````

Edit:- This example uses C syntax, but most languages have a for loop equivalent.

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