This problem arises in synchronization of arrays (ordered sets) of objects.

Specifically, consider an array of items, synchronized to another computer. The user moves one or more objects, thus reordering the array, behind my back. When my program wakes up, I see the new order, and I know the old order. I must transmit the changes to the other computer, reproducing the new order there. Here's an example:

```
index 0 1 2
old order A B C
new order C A B
```

Define a *move* as moving a given object to a given new index. The problem is to express the reordering by transmitting a minimum number of *moves* across a communication link, such that the other end can *infer* the remaining moves by taking the unmoved objects in the old order and moving them into as-yet unused indexes in the new order, starting with the lowest index and going up. This method of transmission would be very efficient in cases where a small number of objects are moved within a large array, displacing a large number of objects.

Hang on. Let's continue the example. We have

```
CANDIDATE 1
Move A to index 1
Move B to index 2
Infer moving C to index 0 (the only place it can go)
```

Note that the first two *moves* are required to be transmitted. If we don't transmit *Move B to index 2*, B will be inferred to index 0, and we'll end up with B A C, which is wrong. We need to transmit two moves. Let's see if we can do better…

```
CANDIDATE 2
Move C to index 0
Infer moving A to index 1 (the first available index)
Infer moving B to index 2 (the next available index)
```

In this case, we get the correct answer, C A B, transmitting only one move, *Move C to index 0*. Candidate 2 is therefore better than Candidate 1. There are four more candidates, but since it's obvious that at least one move is needed to do anything, we can stop now and declare Candidate 2 to be the winner.

I think I can do this by brute forcibly trying all possible candidates, but for an array of N items there are N! (N factorial) possible candidates, and even if I am smart enough to truncate unnecessary searches as in the example, things might still get pretty costly in a typical array which may contain hundreds of objects.

The solution of just transmitting the whole order is not acceptable, because, for compatibility, I need to emulate the transmissions of another program.

If someone could just write down the answer that would be great, but advice to *go read Chapter N of computer science textbook XXX* would be quite acceptable. I don't know those books because, I'm, hey, *only* an electrical engineer.

Thanks!

Jerry Krinock