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If you have an array of integers, such as 1 2 5 4 3 2 1 5 9 What is the best way in C, to remove cycles of integers from an array. i.e. above, 1-2-5-4-3-2-1 is a cycle and should be removed to be left with just 1 5 9.

How can I do this? Thanks!!

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What constraints are there on the definition of a cycle being used here? Is it simply any contiguous set of numbers with the first and last the same? – Amber Mar 29 '10 at 5:31
yes, that's correct, so for example: 4-6-2-8-3-4 can be replaced by just 4. I am using it in a program involving a graph and need. So therefore 4-6-2-8-3-4 isn't going anywhere it just did a redundant cycle. which i need to detect and remove =) – Cheryl Mar 29 '10 at 5:34
What happens when you have overlapping cycles? For instance, 1 2 3 4 1 5 2 6? If you remove the 1-1 cycle, then the 2-2 cycle is no longer a cycle, and vice versa - but both cycles exist in the original. Should both be removed, or only one, or what? – Amber Mar 29 '10 at 5:41
ok let me try this again, using your example, I know i need to send something from 1 to 2 to 3 to 4 to 1 to 5 to 2 to 6 so instead of doing all that I believe I could instead do 1 to 5 to 2 to 6. or 1 to 2 to 6 It doesn't matter how much shorter the path is. All I gotta do is make sure there is no loops. Sorry I should have made that clear. Thanks for your patience – Cheryl Mar 29 '10 at 5:53
So you just remove the first cycle. – systemovich Mar 29 '10 at 11:35

A straight forward search in an array could look like this:

int arr[] = {1, 2, 5, 4, 3, 2, 1, 5, 9};
int len = 9;
int i, j;

for (i = 0; i < len; i++) {
   for (j = 0; j < i; j++) {
      if (arr[i] == arr[j]) {
         // remove elements between i and j
         memmove(&arr[j], &arr[i], (len-i)*sizeof(int));
         len -= i-j;
         i = j;
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THANK YOU VERY MUCH FOR ALL YOUR HELP!! I really appreciate it – Cheryl Mar 29 '10 at 6:16
@Cheryl, please mark the answer as accepted. – systemovich Mar 29 '10 at 11:22

Build a graph and select edges based on running depth first search on it.

Mark vertices when you visit them, add edges as you traverse graph, don't add edges that have already been selected - they would connect previously visited components and therefore create a cycle.

From the array in your example we can't tell what is considered a cycle.

In your example both 2 -> 5 and 1 -> 5 as well as 1 -> 2 so in graph (?):

1 -> 2
|    |
|    V
+--> 5

So where is the information of which elements are connected?

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There is a simple way, with O(n^2) complexity: simply iterate over each array entry from the beginning, and search the array for the last identical value. If that is in the same position as your current position, move on. Otherwise, delete the sequence (except for the initial value) and move on. You should be able to implement this using two nested for loops plus a conditional memcpy.

There is a more complex way, with O(n log n) complexity. If your data set is large, this one will be preferable for performance, though it is more complex to implement and therefore more error-prone.

1) Sort the array - this is the O(n log n) part if you use a good sorting algorithm. Do so by reference - you want to keep the original. This moves all identical values together. Break sort-order ties by position in the original array, this will help in the next step.

2) Iterate once over the sorted array (O(n)), looking for runs of the same value. Because these runs are themselves sorted by position, you can trivially find each cycle involving that value by comparing adjacent pairs for equality. Erase (not delete) each cycle from the original array by replacing each value except the last with a sentinel (zero might work). Don't close the gaps yet, or the references will break.

NB: At this stage you need to ignore any endpoints that have already been erased from the array. Because they will resolve to sentinels, you simply have to be careful to not erase "runs" that involve the sentinel value at either end.

3) Throw away the sorted array, and use the sentinels to close the gaps in the original array. This should be O(n).

Actually implementing this in any given language is left as an exercise for the reader. :-)

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