# Efficient algorithm for removing an array from another array

I'm wondering if anyone knows a better (as in faster) algorithm/solution to solve my problem:

In my program I have an array of uints, from which I want to remove the entries contained in another uint array. However, I cannot use the union of the sets, because I need to keep duplicate values. Badly worded explaination, but the example should make it a bit clearer:

``````    uint[] array_1 = new uint[7] { 1, 1, 1, 2, 3, 4, 4};
uint[] array_2 = new uint[4] { 1, 2, 3, 4 };

uint[] result = array_1 .RemoveRange(array_2);
// result should be: { 1, 1, 4 }
``````

This is my current best idea; but it's fairly slow:

``````    public static uint[] RemoveRange(this uint[] source_array, uint[] entries_to_remove)
{
int current_source_length = source_array.Length;
for (int i = 0; i < entries_to_remove.Length; i++)
{
for (int j = 0; j < current_source_length; j++)
{
if (entries_to_remove[i] == source_array[j])
{
// Shifts the entries in the source_array.
Buffer.BlockCopy(source_array, (j + 1)* 4 , source_array, j * 4, (current_source_length - j) * 4);
current_source_length--;
break;
}
}
}
uint[] new_array = new uint[current_source_length];
Buffer.BlockCopy(source_array, 0, new_array, 0, current_source_length * 4);
return new_array;
}
``````

So again, can someone come up with a more clever approach to achieve what I want?

Thanks!

-
You should not resize arrays yourself. Instead, use `List<T>`. –  SLaks Sep 18 '11 at 16:44
It's not really a set since there are duplicates... –  DHall Sep 18 '11 at 16:44
How are you using the result? Does it have to be an array or is any `IEnumerable<uint>` okay? And does order matter? –  svick Sep 18 '11 at 16:47
are duplicates possible in `array_2` ? –  BrokenGlass Sep 18 '11 at 16:52
Order doesn't matter, and yeah, it has to be an array. Also, I know it's not technically a set, but I felt the question was more "understandable" with that wording :p –  Miria Sep 18 '11 at 16:53

This would do what you want as far as I understand it, they key is reference counting of the number of occurrences and then using the remaining reference count (if > 0) as the number of times a number has to be emitted:

``````public static uint[] RemoveRange(this uint[] source_array, uint[] entries_to_remove)
{
var referenceCount = new Dictionary<uint, int>();
foreach (uint n in source_array)
{
if (!referenceCount.ContainsKey(n))
referenceCount[n] = 1;
else
referenceCount[n]++;
}
foreach (uint n in entries_to_remove)
{
if (referenceCount.ContainsKey(n))
referenceCount[n]--;
}
return referenceCount.Where(x => x.Value > 0)
.Select(x => Enumerable.Repeat(x.Key, x.Value))
.SelectMany( x => x)
.ToArray();
}
``````
-
Orders of magnitude faster, thanks! –  Miria Sep 18 '11 at 20:43

What about using a `Dictionary<uint,int>` using the uint number as the key and the number of times the number occurs as the value?

``````var source = new Dictionary<uint,int>();

var remove = new uint[]{ 1, 2, 3, 4 };
for (int i = 0; i<remove.Length; i++) {
int occurences;
if (source.TryGet(remove[i], out occurences)) {
if (occurences>1) {
source[remove[i]] = occurences-1;
} else {
source.Remove(remove[i]);
}
}
}
``````
-

I'm leaving it here for people who don't want duplicates.

Create a `HashSet<T>` from the second list, then call `List<T>.RemoveAll` with the hashset's `Contains` method.

``````var unwanted = new HashSet<uint(...);
list.RemoveAll(unwanted.Contains);
``````

If you don't want to remove them in-place, you can use LINQ:

``````list.Except(unwanted);
``````

`Except` will build two hashsets and return items one at a time (deferred execution0

-
Except `HashSet` doesn't allow duplicates, which is exactly what OP wants. –  svick Sep 18 '11 at 16:47
This won't work as it will remove duplicates as well –  BrokenGlass Sep 18 '11 at 16:48
{1,1,1,2,3}.RemoveRange({1,2,3}) will for example return an empty set, while it should return {1, 1}. –  Miria Sep 18 '11 at 16:49

If the arrays aren't sorted, sort them. Initialize 3 indexes to 0. 's'(source) and 'd' (dest) index the big array A, 'r' indexes the "toRemove" array B.

``````   While r<B.length,
While B[r] > A[s], A[d++]= A[s++].
If B[r]==A[s], s++.
r++.
Endwhile.
While s<A.length,  A[d++]= A[s++].
A.length = d.
``````

This takes no extra space, and runs in O(N), (or N lg N if they are initially unsorted), compared to the N^2 I your original solution.

-

You can try using Linq here,

``````var resultarray = array1.Except(array2);
``````
-
This doesn't keep duplicates either. And the variable name is misleading, `resultarray` is not an array. –  svick Sep 18 '11 at 16:48