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So I was looking at a few graphs to understand the difference between the joins, and I came across this image:

enter image description here

Maybe the problem is in representing this with Venn Diagrams. But looking at the first join, top left, isn't that basically just A? What difference does B make there?

EDIT: https://blog.jooq.org/2016/07/05/say-no-to-venn-diagrams-when-explaining-joins/

This website explains it well

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  • 4
    No, it's A and part of B, just as the diagram suggests. – Robert Harvey Dec 27 '18 at 18:19
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    This set of Venn diagrams is a bit misleading for describing SQL joins. It doesn't show how rows in A can be duplicated when there are multiple matches on the join condition in B. – digital.aaron Dec 27 '18 at 18:49
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    @digital.aaron exactly how can the sql joins be turned as a mathematical venn diagram as an explanation. It is certainly misleading because it doesnt take all instances to cover all alternatives of it. Perhaps looks like a shortcut document for clearing an interview on the topic called basic sql joins – Himanshu Ahuja Dec 27 '18 at 18:59
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    @HimanshuAhuja I'd probably opt to describe them with something like this: blog.jooq.org/2016/07/05/… – digital.aaron Dec 27 '18 at 19:02
  • There is way in which outer joins vs inner joins are illustrated by Venn diagrams, but that diagram is wrong in the usual way, and I explain this in the comments at your link. Read a textbook or manual about how left join works, the web is trash. This question is an obvious duplicate. See my answer & many comments at the duplicate link. – philipxy Dec 28 '18 at 5:36
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No, it's a join. If there are multiple matching rows from B then a row in A will show up multiple times.

Example:

Table A:

id name
-- -------
 1 Alice
 2 Malcolm
 3 Kelly

Table B:

id_a preferred food
---- --------------
   1 Pizza
   2 Burger
   2 Steak
   2 Menestroni

Then "A left join B" will give you:

id name    id_a preferred food
-- ------- ---- --------------
 1 Alice      1 Pizza
 2 Malcolm    2 Burger
 2 Malcolm    2 Steak
 2 Malcolm    2 Menestroni
 3 Kelly   null null

In short:

  • All rows from A show up in the left join: even 3 Kelly shows up.
  • Columns from B will show up with nulls when there's no matching rows in B: row 3 Kelly has null in the last two columns.
  • Rows in A may show up multiple times when they have multiple matches in B: row 2 shows up three times.
2

Your diagram isn't quite a Venn diagram.

The intersection of the two circles represents joined rows (according to your join condition) with data from both table A and table B.

The left crescent (labeled "A") represents rows in table A that do not have any corresponding rows in table B; the right crescent (labeled "B") represents rows in table B that do not have any corresponding rows in table A.

What the top left diagram is supposed to show is that a left join gives you data from both table A and B that can be joined up according to your join condition, plus all rows from table A that have no corresponding match in table B.

1
  • The diagram is a Venn diagram if we take the circles A & B to be the rows of A left join B & A right join B respectively. But the diagram is poor. See my comment on the question & the comments & answers it mentions. – philipxy Dec 29 '18 at 1:56
0

With JOINs, you get fields from both tables, not only A. It also multiplies the number of records returned if the relationship between tables is not 1-1.

Basically, the only difference between all those JOIN is the behavior when records in A do not match any records in B and vice versa. Your diagrams only show that behavior.

Diagram top let = keep all the records from A, whether or not they match to anything in B (+ what is not represented: when they match, get the data from B).

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A LEFT JOIN B MEANS A + (common ENTRIES OF A WHICH ARE THERE IN B) left join would rather be performed where the table which is left joined has more records in this case A and those records might refer some other columns from B on some common condition. hence, the result A left join B would not mean only A but columns of B added as well in case if required on some common value of A and B.

0

In that diagram they omit the word 'outer' from that description, but you should read it as LEFT OUTER JOIN.

The table to the "left" of the SQL statement (which is going to be the table after the FROM, and in this case, table A) will have every row returned whether or not there is a corresponding row in Table B that matches the JOIN condition.

This is the difference between an inner join and an outer join. Inner joins only return a row where there is a match on the join condition, whereas, a LEFT OUTER join returns the same rows returned by an INNER join, as well as a ROW for any rows in the LEFT table that don't satisfy the JOIN condition. For those rows in the LEFT table that don't JOIN to one or more rows in Table B, the columns of table B that might be specified in the SELECT will be NULL.

You can see that this property of unmatched LEFT rows having NULL values for table B columns is used in the example directly below to filter out any rows derived from a successful join to table B.

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