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here it says

Selection and cross product

Cross product is the costliest operator to evaluate. If the input relations have N and M rows, the result will contain NM rows. Therefore it is very important to do our best to decrease the size of both operands before applying the cross product operator.

suppose that we have 2 relations

first relation is called Student and has 3 attributes, thus

    student
  |a |b   |c |
  ------------
  |__|___|___|
  |__|___|___|
  |__|___|___|

second relation is university and again with 3 attributes

   university
  |e |f   |g |
  ------------
  |__|___|___|
  |__|___|___|
  |__|___|___|

we have 3 rows for each relation, so after applying the cross product operation we will get a relation which has 3*3 = 9 rows

now, I don't understand, why 9 and not 3?

won't the final relation be

 final relation
 |a |b   |c |d |e   |f |g |
 --------------------------
 |__|___|___|__|____|__|__|
 |__|___|___|__|____|__|__|
 |__|___|___|__|____|__|__|

doesn't this have 3 rows again?

Thanks

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1  
This belongs on math.stackexchange.com –  Perception Oct 10 '11 at 15:06
1  
@Perception - It doesn't. relational algebra <> algebra. –  Martin Smith Oct 10 '11 at 15:09
    
@MartinSmith - thats like saying differential calculus isn't calculus. –  Perception Oct 10 '11 at 15:32
1  
@Perception - There are 56 relational algebra questions on SO. Can't see any on math.stackexchange.com –  Martin Smith Oct 10 '11 at 15:38
    
I don't think that relational algebra is unique enough to the programming profession to have its questions on SO. Just going by the faq. And there are currently 755 algebra questions on math.stackexchange.com. –  Perception Oct 10 '11 at 15:43

5 Answers 5

up vote 3 down vote accepted

If the rows in Student are row1, row2 and row3, and the rows in University are row4, row5 and row6, then the cartesian product will contain

row1row4, row1row5, row1row6, row2row4, row2row5, row2row6, row3row4, row3row5, row3row6

Each possible combination of rows. That's how it is defined. Nothing more to it.

Except for your remark "Therefore it is very important to do our best to decrease the size of both operands before applying the cross product operator.". It is important to realise that there do exist optimizers which are able to "rewrite" certain algebra operations. It is certainly not the case that the onus is always on the query writer to determine the "most appropriate way of combining restrictions with other operations". In fact, "moving restrictions to the inside as far as possible" is one of the things industrial optimizers are actually very good at.

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If you have students Alice, Bob and Charles and Universities Oxford, Cambridge, Yale the cartesian product will have 9 rows as follows with every combination.

Student University
------- ----------
Alice   Cambridge
Bob     Cambridge
Charles Cambridge
Alice   Oxford
Bob     Oxford
Charles Oxford
Alice   Yale
Bob     Yale
Charles Yale
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There is no common attribute to link between student and university so each row in student is matched to each row in university, 3 * 3 = 9

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Just imagine that you have two tables one with the students and one with the universities, when you do a Cartesian query against a relational database you will get a row for every student which in turn is joined to every university.

Select *
   From students, 
        universities;

OR

SELECT * FROM students CROSS JOIN universities

I know this has little to do with algebra but since your on stackoverflow :D

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|a|e| |a|f| |a|g| |b|e| |b|f| |b|g| |c|e| |c|f| |c|g|

Therefore 9

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