# Mixing Left and right Joins? Why?

Doing some refactoring in some legacy code I've found in a project. This is for MSSQL. The thing is, i can't understand why we're using mixed left and right joins and collating some of the joining conditions together.

My question is this: doesn't this create implicit inner joins in some places and implicit full joins in others?

I'm of the school that just about anything can be written using just left (and inner/full) or just right (and inner/full) but that's because i like to keep things simple where possible.

As an aside, we convert all this stuff to work on oracle databases as well, so maybe there's some optimization rules that work differently with Ora?

For instance, here's the FROM part of one of the queries:

``````        FROM    Table1
RIGHT OUTER JOIN Table2
ON Table1.T2FK = Table2.T2PK
LEFT OUTER JOIN Table3
RIGHT OUTER JOIN Table4
LEFT OUTER JOIN Table5
ON Table4.T3FK = Table5.T3FK
AND Table4.T2FK = Table5.T2FK
LEFT OUTER JOIN Table6
RIGHT OUTER JOIN Table7
ON Table6.T6PK = Table7.T6FK
LEFT OUTER JOIN Table8
RIGHT OUTER JOIN Table9
ON Table8.T8PK= Table9.T8FK
ON Table7.T9FK= Table9.T9PK
ON Table4.T7FK= Table7.T7PK
ON Table3.T3PK= Table4.T3PK
RIGHT OUTER JOIN ( SELECT   *
FROM     TableA
WHERE    ( TableA.PK = @PK )
AND ( TableA.Date BETWEEN @StartDate
AND     @EndDate )
) Table10
ON Table4.T4PK= Table10.T4FK
ON Table2.T2PK = Table4.T2PK
``````
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I have to admit it makes me ill to look at that! BY all means convert to all left joins. –  HLGEM Jul 21 '09 at 21:51
i just threw up in my mouth –  dotjoe Jul 21 '09 at 22:04
I apologize for converting all the table names to TableX. I have a hunch that this was written by someone still employed here and i'm not sure if she reads stackoverflow, although judging by how wonderfully ruthless you all are in your comments, i doubt it. –  Beta033 Jul 21 '09 at 22:35
I notice that Table4 has a T2PK, did you mean T2FK? –  Shannon Severance Jul 22 '09 at 16:21
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## 7 Answers

One thing I would do is make sure you know what results you are expecting before messing with this. Wouldn't want to "fix" it and have different results returned. Although honestly, with a query that poorly designed, I'm not sure that you are actually getting correct results right now.

To me this looks like something that someone did over time maybe even originally starting with inner joins, realizing they wouldn't work and changing to outer joins but not wanting to bother changing the order the tables were referenced in the query.

Of particular concern to me for maintenance purposes is to put the ON clauses next to the tables you are joining as well as converting all the joins to left joins rather than mixing right and left joins. Having the ON clause for table 4 and table 3 down next to table 9 makes no sense at all to me and should contribute to confusion as to what the query should actually return. You may also need to change the order of the joins in order to convert to all left joins. Personally I prefer to start with the main table that the others will join to (which appears to be table2) and then work down the food chain from there.

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You should see the DB schema! oh, and those PK-FK relationships are really just implicit, and by no means enforced by the database. We've got more orphans than a Monty Python movie. –  Beta033 Jul 21 '09 at 22:40
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It could probably be converted to use all LEFT joins: I'd be looking and moving the right-hand table in each RIGHT to be above all the existing LEFTs, then you might be able to then turn every RIGHT join into a LEFT join. I'm not sure you'll get any FULL joins behind the scenes -- if the query looks like it is, it might be a quirk of this specific query rather than a SQL Server "rule": that query you've provided does seem to be mixing it up in a rather confusing way.

As for Oracle optimisation -- that's certainly possible. No experience of Oracle myself, but speaking to a friend who's knowledgeable in this area, Oracle (no idea what version) is/was fussy about the order of predicates. For example, with SQL Server you can write your way clause so that columns are in any order and indexes will get used, but with Oracle you end up having to specify the columns in the order they appear in the index in order to get best performance with the index. As stated - no idea if this is the case with newer Oracle's, but was the case with older ones (apparently).

Whether this explains this particular construction, I can't say. It could simply be less-thean-optimal code if it's changed over the years and a clean-up is what it's begging for.

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The order in which you specified columns only mattered in Oracle when you used the Rule-Based Optimiser. This was replaced with the Cost-Based Optimiser quite a long time ago and the RBO has been deprecated for a while. –  Jeffrey Kemp Jul 22 '09 at 14:58
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`LEFT` and `RIGHT` join are pure syntax sugar.

Any `LEFT JOIN` can be transformed into a `RIGHT JOIN` merely by switching the sets.

Pre-`9i` `Oracle` used this construct:

``````WHERE  table1.col(+) = table2.col
``````

, `(+)` here denoting the nullable column, and `LEFT` and `RIGHT` joins could be emulated by mere switching:

``````WHERE  table1.col = table2.col(+)
``````

In `MySQL`, there is no `FULL OUTER JOIN` and it needs to be emulated.

Ususally it is done this way:

``````SELECT  *
FROM    table1
LEFT JOIN
table2
ON      table1.col = table2.col
UNION ALL
SELECT  *
FROM    table1
RIGHT JOIN
table2
ON      table1.col = table2.col
WHERE   table1.col IS NULL
``````

, and it's more convenient to copy the `JOIN` and replace `LEFT` with `RIGHT`, than to swap the tables.

Note that in `SQL Server` plans, `Hash Left Semi Join` and `Hash Right Semi Join` are different operators.

For the query like this:

``````SELECT  *
FROM    table1
WHERE   table1.col IN
(
SELECT  col
FROM    table2
)
``````

, `Hash Match (Left Semi Join)` hashes `table1` and removes the matched elements from the hash table in runtime (so that they cannot match more than one time).

`Hash Match (Right Semi Join)` hashes `table2` and removes the duplicate elements from the hash table while building it.

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I may be missing something here, but the only difference between LEFT and RIGHT joins is which order the source tables were written in, and so having multiple LEFT joins or multiple RIGHT joins is no different to having a mix. The equivalence to FULL OUTERs could be achieved just as easily with all LEFT/RIGHT than with a mix, n'est pas?

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We have some `LEFT OUTER JOIN`s and `RIGHT OUTER JOIN`s in the same query. Typically such queries are large, have been around a long time, probably badly written in the first place and have received infrequent maintenance. I assume the `RIGHT OUTER JOIN`s were introduced as a means of maintaining the query without taking on the inevitable risk when refactoring a query significantly.

I think most SQL coders are most confortable with using all `LEFT OUTER JOIN`s, probably because a `FROM` clause is read left-to-right in the English way.

The only time I use a `RIGHT OUTER JOIN` myself is when when writing a new query based on an existing query (no need to reinvent the wheel) and I need to change an `INNER JOIN` to an `OUTER JOIN`. Rather than change the order of the `JOIN`s in the `FROM` clause just to be able to use a `LEFT OUTER JOIN` I would instead use a `RIGHT OUTER JOIN` and this would not bother me. This is quite rare though. If the original query had `LEFT OUTER JOIN`s then I'd end up with a mix of `LEFT`- and `RIGHT OUTER JOIN`s, which again wouldn't bother me. Hasn't happened to me yet, though.

Note that for SQL products such as the Access database engine that do not support `FULL OUTER JOIN`, one workaround is to `UNION` a `LEFT OUTER JOIN` and a `RIGHT OUTER JOIN` in the same query.

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Mixing right and left joins bugs me, I guess because in my mind I always think of one side as "I will definitely get my data", and the other side as "I MIGHT get my data", and I always use LEFT JOIN. Mixing them up makes it harder for me to keep track of what data I can count on having. –  RedFilter Jul 22 '09 at 16:24
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The bottom line is that this is a very poorly formatted SQL statement and should be re-written. Many of the ON clauses are located far from their JOIN statements, which I am not sure is even valid SQL.

For clarity's sake, I would rewrite the query using all LEFT JOINS (rather than RIGHT), and locate the using statements underneath their corresponding JOIN clauses. Otherwise, this is a bit of a train wreck and is obfuscating the purpose of the query, making errors during future modifications more likely to occur.

doesn't this create implicit inner joins in some places and implicit full joins in others?

Perhaps you are assuming that because you don't see the ON clause for some joins, e.g., `RIGHT OUTER JOIN Table4`, but it is located down below, `ON Table4.T7FK= Table7.T7PK`. I don't see any implicit inner joins, which could occur if there was a WHERE clause like `WHERE Table3.T3PK is not null`.

The fact that you are asking questions like this is a testament to the opaqueness of the query.

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Well, the statement is technically valid according to MSSQL as it parses correctly and runs. As to the validity of the results, however, your guess is as good as mine. –  Beta033 Jul 22 '09 at 16:03
Yeah, I meant valid according to ANSI 92, but I find that documentation very hard to read, so I am too lazy to check for myself :) –  RedFilter Jul 22 '09 at 16:28
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To answer another portion of this question that hasn't been answered yet, the reason this query is formatted so oddly is that it's likely built using the Query Designer inside SQL Management Studio. The give away is the combined ON clauses that happen many lines after the table is mentioned. Essentially tables get added in the build query window and the order is kept even if that way things are connected would favor moving a table up, so to speak, and keeping all the joins a certain direction.

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