A cross join performs a cartesian product on the tuples of the two sets.
SELECT * FROM Table1 CROSS JOIN Table2
Which circumstances render such an SQL operation particularly useful?
If you have a "grid" that you want to populate completely, like size and color information for a particular article of clothing:
select size, color from sizes CROSS JOIN colors
Maybe you want a table that contains a row for every minute in the day, and you want to use it to verify that a procedure has executed each minute, so you might cross three tables:
select hour, minute from hours CROSS JOIN minutes
Or you have a set of standard report specs that you want to apply to every month in the year:
select specId, month from reports CROSS JOIN months
The problem with maintaining these as views is that in most cases, you don't want a complete product, particularly with respect to clothes. You can add
MINUS logic to the query to remove certain combinations that you don't carry, but you might find it easier to populate a table some other way and not use a Cartesian product.
Also, you might end up trying the cross join on tables that have perhaps a few more rows than you thought, or perhaps your
WHERE clause was partially or completely missing. In that case, your DBA will notify you promptly of the omission. Usually he or she will not be happy.
You're typically not going to want a full Cartesian product for most database queries. The whole power of relational databases is that you can apply whatever restrictions you might be interested in to allow you to avoid pulling unnecessary rows from the db.
I suppose one contrived example where you might want that is if you have a table of employees and a table of jobs that need doing and want to see all possible assignments of one employee to one job.
Ok, this probably won't answer the question, but, if it's true (and I'm not even sure of that) it's a fun bit of history.
In the early days of Oracle, one of the developers realized that he needed to duplicate every row in a table (for example, it's possible it was a table of events and he needed to change it separate "start event" and "end event" entries). He realized that if he had a table with just two rows, he could do a cross join, selecting just the columns in the first table, and get exactly had he needed. So he created a simple table, which he naturally enough called "DUAL".
Later, he need to do something which could only be done via a select from a table, even though the action itself had nothing to do with the table, (perhaps he forgot his watch and wanted to read the time via SELECT SYSDATE FROM...) He realized that he still had his DUAL table lying around, and used that. After a while, he tired of seeing the time printed twice, so he eventual deleted one of the rows.
Others at Oracle started using his table, and eventually, it was decided to include it in the standard Oracle installation.
Which explains why a table whose only significance is that it has one row has a name which means "two".
The key is "show me all possible combinations". I've used these in conjunction with other calculated fields an then sorted/filtered those.
For example, say you are building an arbitrage (trading) application. You have sellers offering products at a price and buyers asking for products at a cost. You do a cross join on the product key (to match up the potential buyers and sellers), calculate the spread between cost and price, then sort desc. on this to give you (the middleman) the most profitable trades to execute. Almost always you'll have other bounding filter criteria of course.
Takes something like a digits table, which has ten rows for the digits 0-9. You can use cross join on that table a few times to a get result that has however many rows you need, with the results numbered appropriately. This has a number of uses. For example, you can combine it with a datadd() function to get a set for every day in a given year.
Imagine you had a series of queries you want to issue over a specific combination of items and dates (prices, availability, etc..). You could load the items and dates into separate temp tables and have your queries cross join the tables. This may be more convenient than the alternative of enumerating the items and dates in IN clauses, especially since some databases limit the number of elements in an IN clause.
you can use it CROSS JOIN to: - generate data for testing purposes - combine all properties - you need all possible combination of e.g blood groups (A,B,..) with Rh-/+, etc... --tune it for your purposes;) - I'm not expert in this area;)
CREATE TABLE "HR"."BL_GRP_01" ("GR_1" VARCHAR2(5 BYTE)); REM INSERTING into BL_GRP_01 SET DEFINE OFF; Insert into BL_GRP_02 (GR_1) values ('A'); Insert into BL_GRP_02 (GR_1) values ('B'); Insert into BL_GRP_02 (GR_1) values ('O'); Insert into BL_GRP_01 (GR_1) values (NULL); CREATE TABLE "HR"."BL_GRP_02" ("GR_1" VARCHAR2(5 BYTE)); REM INSERTING into BL_GRP_02 SET DEFINE OFF; Insert into BL_GRP_02 (GR_1) values ('A'); Insert into BL_GRP_02 (GR_1) values ('B'); Insert into BL_GRP_02 (GR_1) values ('O'); Insert into BL_GRP_02 (GR_1) values (NULL); CREATE TABLE "HR"."RH_VAL_01" ("RH_VAL" VARCHAR2(5 BYTE)); REM INSERTING into RH_VAL_01 SET DEFINE OFF; Insert into RH_VAL_01 (RH_VAL) values ('+'); Insert into RH_VAL_01 (RH_VAL) values ('-'); Insert into RH_VAL_01 (RH_VAL) values (NULL); select distinct a.GR_1 || b.GR_1 || c.RH_VAL as BL_GRP from BL_GRP_01 a, BL_GRP_02 b, RH_VAL_01 c GROUP BY a.GR_1, b.GR_1, c.RH_VAL;