# Algorithm to create unique random concatenation of items

I'm thinking about an algorithm that will create X most unique concatenations of Y parts, where each part can be one of several items. For example 3 parts:

```part #1: 0,1,2
part #2: a,b,c
part #3: x,y,z
```

And the (random, one case of some possibilities) result of 5 concatenations:

```0ax
1by
2cz
0bz (note that '0by' would be "less unique " than '0bz' because 'by' already was)
2ay (note that 'a' didn't after '2' jet, and 'y' didn't after 'a' jet)
```

Simple BAD results for next concatenation:

``````1cy ('c' wasn't after 1, 'y' wasn't after 'c', BUT '1'-'y' already was as first-last
``````

Simple GOOD next result would be:

``````0cy ('c' wasn't after '0', 'y' wasn't after 'c', and '0'-'y' wasn't as first-last part)
1az
1cx
``````

I know that this solution limit possible results, but when all full unique possibilities will gone, algorithm should continue and try to keep most avaible uniqueness (repeating as few as possible).

Consider real example:

``````Boy/Girl/Martin
bought/stole/get
bottle/milk/water
``````

And I want results like:

``````Boy get milk
Martin stole bottle
Girl bought water
Boy bought bottle (not water, because of 'bought+water' and not milk, because of 'Boy+milk')
``````

Maybe start with a tree of all combinations, but how to select most unique trees first?

Edit: According to this sample data, we can see, that creation of fully unique results for 4 words * 3 possibilities, provide us only 3 results:

``````Martin stole a bootle
Boy bought an milk
He get hard water
``````

But, there can be more results requested. So, 4. result should be most-available-uniqueness like `Martin bought hard milk`, not `Martin stole a water`

Edit: Some start for a solution ? Imagine each part as a barrel, wich can be rotated, and last item goes as first when rotates down, first goes as last when rotating up. Now, set barells like this:

``````Martin|stole |a   |bootle
Boy   |bought|an  |milk
He    |get   |hard|water
``````

Now, write sentences as We see, and rotate first barell UP once, second twice, third three and so on. We get sentences (note that third barell did one full rotation):

``````Boy   |get   |a   |milk
He    |stole |an  |water
Martin|bought|hard|bootle
``````

And we get next solutions. We can do process one more time to get more solutions:

``````He    |bought|a   |water
Martin|get   |an  |bootle
Boy   |stole |hard|milk
``````

The problem is that first barrel will be connected with last, because rotating parallel. I'm wondering if that will be more uniqe if i rotate last barrel one more time in last solution (but the i provide other connections like an-water - but this will be repeated only 2 times, not 3 times like now). Don't know that "barrels" are good way ofthinking here.

I think that we should first found a definition for uniqueness

For example, what is changing uniqueness to drop ? If we use word that was already used ? Do repeating 2 words close to each other is less uniqe that repeating a word in some gap of other words ? So, this problem can be subjective.

But I think that in lot of sequences, each word should be used similar times (like selecting word randomly and removing from a set, and after getting all words refresh all options that they can be obtained next time) - this is easy to do.

But, even if we get each words similar number od times, we should do something to do-not-repeat-connections between words. I think, that more uniqe is repeating words far from each other, not next to each other.

-
In the first example, why don't you also get `1cx`? –  Gareth Rees Jul 18 '11 at 11:36
Because it's "random 5 results", so '1cx' is good solution, but not occurs in my "random" example. If that would be request for 8 results, then other can be '1cx', '0cy', '1az' (and maybe more wich i can't see). Also, re-running algorithm can put '1cx' as first solution, 5 it's just a limit for random solutions output in this example. –  killer_PL Jul 18 '11 at 11:44
Question : do you have any information about X and Y? In your case, if the number of output required is small, you can generate sequences randomly, repeating the process is the sequence is invalid. However, if the number of sequence is high (close to the maximum number of sequences possible) you'll need a "real" algorithm. –  Fezvez Jul 18 '11 at 11:59
I have all informations about X and Y.But, even if I have small amount of sequences to generate, i can't check that "sequence is invalid" for repeating. If i can check validness of sequence (= check "uniquennes" of sequence), then that would be the algorithm wich for i search - because i serch for uniqueness-measure algorithm to pick most-uniqueness sequences. –  killer_PL Jul 18 '11 at 12:02
Maybe this would help thinking: SAMPLE - link to sample combinations of 4 parts, 3 words each –  killer_PL Jul 18 '11 at 12:05

Anytime you need a new concatenation, just generate a completely random one, calculate it's fitness, and then either accept that concatenation or reject it (probabilistically, that is).

``````const C = 1.0

function CreateGoodConcatenation()
{
for (rejectionCount = 0; ; rejectionCount++)
{
candidate = CreateRandomConcatination()
fitness = CalculateFitness(candidate) // returns 0 < fitness <= 1
r = GetRand(zero to one)
adjusted_r = Math.pow(r, C * rejectionCount + 1)  // bias toward acceptability as rejectionCount increases