I've used clojure for a while but just starting out with core.logic.

Given a domain like `1 2 3 4`

I want to get a vector of two vectors back like `([[1 2] [3 4]])`

.

*Note: This is just a simplified version of what I'm really trying to do. :) See: https://github.com/adamhoward/lineup*

I found this definition for not-membero on the web:

```
(defne not-membero [x l]
([_ []])
([_ [?y . ?r]]
(!= x ?y)
(not-membero x ?r)))
```

And I'm trying to use it like this:

```
(run 1 [q]
(fresh [w x
y z]
(== q [[w x]
[y z]])
(infd w x y z (domain 1 2 3 4))
(everyg distinctfd [[w x] [y z]])
(everyg #(not-membero % [y z]) [w x])))
```

Running this in Emacs gives me an `Evaluation aborted.`

message.

When I try switching out `membero`

for `not-membero`

I get back `([[1 2] [1 2]])`

which makes sense to me. Every element in the first vector `[w x]`

is a member of the second vector `[y z]`

.

**But**, when I call `run 2`

I get back `([[1 2] [1 2]] [[1 2] [1 3]])`

. I don't understand how `[[1 2] [1 3]]`

can be correct for the rules above. Am I not understanding `everyg`

correctly? Any guidance (including rtfmanual, rtfbook, rtfdissertation) will be appreciated.

Thanks.

**Edit:** May have solved this.

Still not sure about the strange results from `membero`

but instead of the `not-membero`

goal I found that I could do this:

```
(everyg #(distinctfd (conj [y z] %)) [w x])
```

Each element of `[w x]`

conj'd to `[y z]`

contains all distinct values. This may be less efficient than not-membero so I'm still open to any help.