How to find all tuples in a table if and only if the tuple appears once?

I have a table:

x | y | z
------------
1 | 1 | *
1 | 1 | *
1 | 3 | *
2 | 2 | *
2 | 3 | *
3 | 4 | *
3 | 4 | *
3 | 3 | *

What is the relational algebra representation of only returning all unique (x, y) tuples?

For example, I would like the following (x,y) tuples returned in the above table: (1,3), (2,2) (2,3), and (3,3).

Thanks

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This can be done using GROUP BY .. HAVING COUNT in many SQL dialects. Given a Key (which is not present above), it can also be done with a LEFT JOIN selecting only the relationships that have a "NULL" right tuple. (The lack of a Key actually makes this .. difficult from a purer RA perspective.) –  user2864740 Oct 20 '13 at 19:52
Sorry I'm looking for the relational algebra representation. I will remove the relational-database tag. –  Ken Oct 20 '13 at 19:55
I don't know of a way without a Key - as far as I can tell that rules out all useful joins. It's possible to use a set difference, but I'm not sure where that goes without initially being able to find the set of duplicates. (And why does this Set have duplicates to begin with?!) –  user2864740 Oct 20 '13 at 20:07
If we imagine the X to be an ID, y to be some date, and z to be some event. I want to be able to return all (id,date) tuples based on people who only went to one event on that date. –  Ken Oct 20 '13 at 20:21
Then (x,y,z) is a Key and order is restored! –  user2864740 Oct 21 '13 at 7:55

1. Rename R to S

S := ρS/R(R)

2. Join R and S on x,y

D := R ⋈S.x = R.x ∧ S.y = R.y S

This squares the number of tuples with a particular value for (x,y). Particularly, if a value for (x,y) appears only once in R, it appears only once in D.

3. Join R and S on x,y,z

E := R ⋈S.x = R.x ∧ S.y = R.y ∧ S.z = R.z S

This basically adds some columns to R. It does not add or remove tuples.

4. Subtract E from D and project to the attributes of R

F := πx,y,z(D\E)

This removes the tuples from D, that where created by joining a tuple from R to the corresponding tuple in S. The remaining tuples are the ones that where created by joining a tuple in R to a different tuple in S. Particularly, if a value for (x,y) appears only once in R, no tuple in F exists with that value.

5. Remove the tuples in F from R

R\F

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Sorry I don't understand. The * was meant to be any value. Why can't my table have (x,y,z) tuples such as (1, 1, 3), (1, 1, 2) and (1, 3, 2). Is my question nos solvable if I perform a natural join on the table with itself, using a set of conditions, followed by some sort of set difference? –  Ken Oct 20 '13 at 20:24
You're right, it is possible. –  Oswald Oct 20 '13 at 21:11