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Can any one tell me whether below 2 queries are an example of Left Outer Join or Right Outer Join??

Table Part:
Name         Null?       Type
PART_ID      NOT NULL    VARCHAR2(4)
SUPPLIER_ID              VARCHAR2(4)

PART_ID SUPPLIER_ID
P1      S1
P2      S2
P3  
P4  

Table Supplier:
Name            Null?     Type
SUPPLIER_ID NOT NULL      VARCHAR2(4)
SUPPLIER_NAME   NOT NULL  VARCHAR2(20)

SUPPLIER_ID  SUPPLIER_NAME
S1           Supplier#1
S2           Supplier#2
S3           Supplier#3

Display all the parts irrespective of whether any supplier supplies them or not:

SELECT P.Part_Id, S.Supplier_Name
FROM Part P, Supplier S
WHERE P.Supplier_Id = S.Supplier_Id (+)

SELECT P.Part_Id, S.Supplier_Name
FROM Part P, Supplier S
WHERE S.Supplier_Id (+) = P.Supplier_Id
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  • 28
    You should avoid using the '(+)' notation and upgrade the queries to use explicit joins.
    – Jonathan Leffler
    Jul 2, 2011 at 20:50
  • 3
    @JonathanLeffler 100% agree. The problem is that I work with people who don't want to swith to the standard notation. I write new query with standard notation but I'll be shoot in a minute if a modified an old one.
    – Luc M
    Aug 7, 2012 at 14:24
  • 3
    @JonathanLeffler I would agree, unless you are using Oracle. Oracle as it stands currently does not handle the ansi syntax as well as the (+) operator internally. Though they do recommend using the ansi syntax :) docs.oracle.com/cd/B28359_01/server.111/b28286/queries006.htm
    – A myth
    Mar 19, 2013 at 17:32
  • 7
    @Amyth Sorry for this way outdated comment, but I came to this question from a search. As of myself, I understand Oracle's recommendations the exact opposite way. From your link: "Oracle recommends that you use the FROM clause OUTER JOIN syntax rather than the Oracle join operator. Outer join queries that use the Oracle join operator (+) are subject to the following rules and restrictions, which do not apply to the FROM clause OUTER JOIN syntax ..."
    – Sylvain Leroux
    Oct 23, 2014 at 9:40
  • Sorry for the outdated response as well :), but what Oracle says, and how its stats work to optimize the queries are two different things, and it might be that Oracle has changed its stance as well with advances to its internal optimizers
    – A myth
    Jan 28, 2015 at 15:22

3 Answers 3

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196

TableA LEFT OUTER JOIN TableB is equivalent to TableB RIGHT OUTER JOIN Table A.

In Oracle, (+) denotes the "optional" table in the JOIN. So in your first query, it's a P LEFT OUTER JOIN S. In your second query, it's S RIGHT OUTER JOIN P. They're functionally equivalent.

In the terminology, RIGHT or LEFT specify which side of the join always has a record, and the other side might be null. So in a P LEFT OUTER JOIN S, P will always have a record because it's on the LEFT, but S could be null.

See this example from java2s.com for additional explanation.

To clarify, I guess I'm saying that terminology doesn't matter, as it's only there to help visualize. What matters is that you understand the concept of how it works.

RIGHT vs LEFT

I've seen some confusion about what matters in determining RIGHT vs LEFT in implicit join syntax.

LEFT OUTER JOIN

SELECT *
FROM A, B
WHERE A.column = B.column(+)

RIGHT OUTER JOIN

SELECT *
FROM A, B
WHERE B.column(+) = A.column

All I did is swap sides of the terms in the WHERE clause, but they're still functionally equivalent. (See higher up in my answer for more info about that.) The placement of the (+) determines RIGHT or LEFT. (Specifically, if the (+) is on the right, it's a LEFT JOIN. If (+) is on the left, it's a RIGHT JOIN.)

Types of JOIN

The two styles of JOIN are implicit JOINs and explicit JOINs. They are different styles of writing JOINs, but they are functionally equivalent.

See this SO question.

Implicit JOINs simply list all tables together. The join conditions are specified in a WHERE clause.

Implicit JOIN

SELECT *
FROM A, B
WHERE A.column = B.column(+)

Explicit JOINs associate join conditions with a specific table's inclusion instead of in a WHERE clause.

Explicit JOIN

SELECT *
FROM A
LEFT OUTER JOIN B ON A.column = B.column

These Implicit JOINs can be more difficult to read and comprehend, and they also have a few limitations since the join conditions are mixed in other WHERE conditions. As such, implicit JOINs are generally recommended against in favor of explicit syntax.

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27
  • 3
    Right, I get it now -- the JOIN is created implicitly by the presence of the (+). Cool.
    – Kerrek SB
    Jul 2, 2011 at 20:37
  • 2
    @Mike: That's the way the + syntax works. It means "optional", so read it like "List all parts, optionally make the supplier match".
    – Kerrek SB
    Jul 2, 2011 at 20:59
  • 2
    @Mike: As long as you know what you're selecting, it doesn't really matter how you call it. But do yourself a favour and use the idiomatic JOIN syntax instead! Then there is no room for confusion.
    – Kerrek SB
    Jul 2, 2011 at 21:01
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    @TomJMuthirenthi Without using explicit FULL OUTER JOIN syntax, you'll need to UNION [ALL] two result sets together: one for A = B(+) and one for B = A(+). Example in this question.
    – Wiseguy
    Mar 1, 2017 at 15:34
  • 2
    The "(+)" goes on the columns of the table that generates subrows of nulls.
    – philipxy
    Jun 8, 2017 at 6:18
0 
You can see answers from previous posts
However I added little more information 
    create table r2020 (id int, name varchar2(50),rank number);
    insert into r2020 values (101,'Rob Rama',1);
    insert into r2020 values (102,'Ken Krishna',3);
    insert into r2020 values (108,'Ray Rama',2);
    insert into r2020 values (109,'Kat Krishna',4);
    
    create table r2021 (id int, name varchar2(50),rank number);
    insert into r2021 values (102,'Ken Krishna',1); 
    insert into r2021 values (103,'Tom Talla',2);
    insert into r2021 values (108,'Ray Rama',2); 
    
    --LEFT OUTER JOIN  
        --oracle notation
        select * from r2020 r1, r2021 r2
        where  r1.id  = r2.id (+) 
        order by r1.id;
        
        --ANSI notation
        select * from r2020 r1
        left outer join r2021 r2 on  r1.id = r2.id  
        order by r1.id;
        --OUT PUT
        NAME        ID RANK  NAME_1     ID_1    RANK_1
        ----        -- ---- ----        ----   ------
        Rob Rama    101 1   (null)      (null)  (null)
        Ken Krishna 102 3   Ken Krishna 102     1
        Ray Rama    108 2   Ray Rama    108     2
        Kat Krishna 109 4   (null)      (null)  (null)
    
    --RIGHT OUTER JOIN  
        --oracle notation
        select * from r2020 r1, r2021 r2
        where  r1.id (+)  = r2.id 
        order by r1.id;
        
        --ANSI notation
        select * from r2020 r1
        right outer join r2021 r2 on  r1.id = r2.id  
        order by r1.id;
        --OUT PUT
        NAME        ID    RANK    NAME_1      ID_1    RANK_1
        ----        --    ----    ----        ----   ------
        Ken Krishna 102     3     Ken Krishna 102    1
        Ray Rama    108     2     Ray Rama    108    2
        (null)      (null) (null) Tom Talla   103    2
        
        
    --<b>MULTIPLE COLUMNS IN JOIN CONDITION</b>
    --LEFT OUTER JOIN  
        --oracle notation
        select * from r2020 r1, r2021 r2
        where  r1.id  = r2.id (+) and 
               r1.rank  = r2.rank (+)
        order by r1.id;
        
        --ANSI notation
        select * from r2020 r1
        left outer join r2021 r2 on  r1.id = r2.id and 
                                     r1.rank  = r2.rank 
        order by r1.id;
        --OUT PUT
        NAME        ID RANK  NAME_1     ID_1    RANK_1
        ----        -- ---- ----        ----   ------
        Rob Rama    101 1   (null)      (null)  (null)
        Ken Krishna 102 3   (null)      (null)  (null)
        Ray Rama    108 2   Ray Rama    108     2
        Kat Krishna 109 4   (null)      (null)  (null)
    
    --RIGHT OUTER JOIN  
        --oracle notation
        select * from r2020 r1, r2021 r2
        where  r1.id (+)  = r2.id and
               r1.rank(+)  = r2.rank 
        order by r1.id;
        
        --ANSI notation
        select * from r2020 r1
        right outer join r2021 r2 on  r1.id = r2.id and
                                      r1.rank  = r2.rank 
        order by r1.id;
        --OUT PUT
        NAME      ID     RANK   NAME_1       ID_1  RANK_1
        ----      --     ----   ----         ----  ------
        (null)    (null) (null) Ken Krishna  102   1
        Ray Rama  108     2     Ray Rama     108   2
        (null)    (null) (null) Tom Talla    103   2
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-3

There is some incorrect information in this thread. I copied and pasted the incorrect information:

LEFT OUTER JOIN

SELECT *
FROM A, B
WHERE A.column = B.column(+)

RIGHT OUTER JOIN

SELECT *
FROM A, B
WHERE B.column(+) = A.column

The above is WRONG!!!!! It's reversed. How I determined it's incorrect is from the following book:

Oracle OCP Introduction to Oracle 9i: SQL Exam Guide. Page 115 Table 3-1 has a good summary on this. I could not figure why my converted SQL was not working properly until I went old school and looked in a printed book!

Here is the summary from this book, copied line by line:

Oracle outer Join Syntax: 

from tab_a a, tab_b b,                                       
where a.col_1 + = b.col_1

ANSI/ISO Equivalent:

from tab_a a left outer join  
tab_b b on a.col_1 = b.col_1

Notice here that it's the reverse of what is posted above. I suppose it's possible for this book to have errata, however I trust this book more so than what is in this thread. It's an exam guide for crying out loud...

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  • 4
    This contradicts what I linked to in my answer, which is an excerpt from Oracle Database 10g SQL (Osborne ORACLE Press Series) 1st edition (February 20, 2004), stating: "In a left outer join, the outer join operator is actually on the right of the equality operator." Here is a demo of your example. The results of a.col_1(+) = b.col_1 match RIGHT JOIN, not LEFT JOIN.
    – Wiseguy
    Sep 30, 2014 at 21:26

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