# Converting a certain SQL query into relational algebra

Just doing an assignment for my database course and I just want to double check that I've correctly wrapped my head around relational algebra.

The SQL query:

``````SELECT dato, SUM(pris*antall) AS total
FROM produkt, ordre
WHERE ordre.varenr = produkt.varenr
GROUP BY dato
HAVING total >= 10000
``````

The relational algebra:

``````σtotal >= 10000(
ρR(dato, total)(
σordre.varenr = produkt.varenr(
datoℑSUM(pris*antall(produkt x ordre))))
``````

Is this the correct way of doing it?

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I don't know. And anybody else is not likely to know either.

RA courses typically limit themselves to the selection, projection and join operators. Aggregations are not typically covered by an RA course. There even isn't any standard approach (that I know of) that the RA takes on aggregations.

What is the operator that your course defines for doing aggregations on relations ? What type of value does that operator produce for its result ? A relation ? Something else ? If something else, how does your course explain doing relational restrictions on that result, given that these result values aren't relations, but restriction works only on relations ?

Algebraically, this case starts with a natural join (produkt x ordre).

[The result of] this natural join is subjected to an aggregation operation. Thus this natural join is to appear where you specify the relational input argument to your aggregation operator. The other needed specs for specifying the aggregation are the output attribute names (total), and the way to compute them (SUM(...)). Those might appear in subscript next to your aggregation operator symbol as "annotations", much like the attribute lists on projection and the restriction condition on restriction. But anything concerning this operator is course-specific, because there isn't any agreed-upon standard notation for aggregations, as far as I know.

Then if your aggregation operator is defined to return a relation, you can specify your aggregation result as the input argument to a restriction with condition "total>=10000".

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Thanks for the reply! According to our lectures slides our teacher uses ℑ for aggregation. For example SELECT COUNT(*) FROM dvd would be ℑ COUNT *(DVD). "What type of value does that operator produce for its result?" - I'm not sure what this means. I think what he wants is to be able to read what the SQL query would be from the RA. –  Fumler Sep 16 '12 at 16:55
Yeah. I was afraid something like that was going to be the answer. I'm afraid your lecturer might even be clueless as to what an algebra really is (an algebra is a set of operators that is closed over some set of types. Relational algebra is a set of operators that is closed over some set of types that includes the relation type(s).). Relational algebra is more than some cryptic and/or impenetrable way of writing SQL. I really wonder what purpose all these teachers think they achieve by letting students "translate SQL into RA". It's the biggest exercise in futility I can imagine. –  Erwin Smout Sep 16 '12 at 18:30
Thanks again, we do not either understand why we are learning this. –  Fumler Sep 16 '12 at 18:36
For example. What provisions are there in that symbology for writing down the attribute name for the COUNT() or the SUM() ? (An attribute in a relation MUST have a name, and any RA notation for operators that return relations, MUST provide for those attribute names.) What provisions are there in that symbology for doing multiple aggregations in a single go ? (Genre SELECT COUNT(1), SUM(nummer) FROM ...) Are those lectures or slides online anywhere ? –  Erwin Smout Sep 16 '12 at 18:38
Eurhm, don't misunderstand me. I'm not saying it is pointless to learn and understand RA. Quite the contrary. RA is foundational. SQL is not. It's the order of things they are getting wrong. RA should come first, and "translation", if any, should be from RA to SQL. –  Erwin Smout Sep 16 '12 at 18:40