I have a program I need to write, and I'm not sure how to do it. I need a reference to a method of how to solve it. The problem is as follows:

You have a list of **N** integer numbers. For instance: **[4;2;3;2;1;5;1;3;2]**.

If there is some **K** or higher number of adjacent duplicate numbers, they are removed from the list. You can add any number between any two numbers, or to the beginning/ending of the list, so that the numbers are removed from the list.

The task is to clear the list using as low amount of numbers as possible.

1 <= **N** <= 100 - **N** is the length of the list.

2 <= **K** <= 5 - **K** is the minimum amount of duplicate adjacent numbers that are removed from the sequence.

**K** is provided in the ranges specified.

Example:
List = **[4;2;3;2;1;5;1;3;2]** - Answer is **3**; ** K** = 2

My idea is to have some kind of sequence tree, so as to remove the numbers efficiently. The tree for this example would look like:

```
4 2 2
3 3
2 1 1
5
```

So you have to add **5** between 4th and 5th element of the list (starting from 0), then 4th to 7th elements disappear, and the sequence looks like this.

```
4 2 2
3 3
2
```

Now you add **2** between 2nd and 3rd element of the new sequence, so 1st to 5th elements are removed.

Then you add 4 to a new sequence, and the total amount of numbers added to the sequence was **3**. What is the algorithm to this problem? Thanks.

`K`

is determined, and what you mean by _the answer is`3*K*=2`

. – jogojapan Oct 26 '12 at 8:30