What is the difference between
INNER JOIN and
RIGHT JOIN, and
FULL JOIN fit in?
Assuming you're joining on columns with no duplicates, which is a very common case:
Suppose you have two Tables, with a single column each, and data as follows:
Note that (1,2) are unique to A, (3,4) are common, and (5,6) are unique to B.
An inner join using either of the equivalent queries gives the intersection of the two tables, i.e. the two rows they have in common.
Left outer join
A left outer join will give all rows in A, plus any common rows in B.
Full outer join
A full outer join will give you the union of A and B, i.e. All the rows in A and all the rows in B. If something in A doesn't have a corresponding datum in B, then the B portion is null, and vice versa.
Also you can consider the following schema for different join types;
I recommend Jeff's blog article. The best description I've ever seen, plus there is a visualization, e.g.:
Full Outer Join:
The following was taken from the article "MySQL - LEFT JOIN and RIGHT JOIN, INNER JOIN and OUTER JOIN" by Graham Ellis on his blog Horse's Mouth.
In a database such as MySQL, data is divided into a number of tables which are then connected (
First, some sample data:
If we do a regular JOIN (with none of the keywords INNER, OUTER, LEFT or RIGHT), then we get all records that match in the appropriate way in the two tables, and records in both incoming tables that do not match are not reported:
If we do a LEFT JOIN, we get all records that match in the same way and IN ADDITION we get an extra record for each unmatched record in the left table of the join - thus ensuring (in this example) that every PERSON gets a mention:
If we do a RIGHT JOIN, we get all the records that match and IN ADDITION an extra record for each unmatched record in the right table of the join - in my example, that means that each property gets a mention even if we don't have seller details:
An INNER JOIN does a full join, just like the first example, and the word OUTER may be added after the word LEFT or RIGHT in the last two examples - it's provided for ODBC compatibility and doesn't add an extra capabilities.
A inner join only shows rows if there is a matching record on the other (right) side of the join.
A (left) outer join shows rows for each record on the left hand side, even if there are no matching rows on the other (right) side of the join. If there is no matching row, the columns for the other (right) side would show NULLs.
Retrieve the matched rows only, that is,
Left Outer Join
Select all records from the first table, and any records in the second table that match the joined keys.
Full Outer Join
Select all records from the second table, and any records in the first table that match the joined keys.
The Venn diagrams don't really do it for me.
They don't show any distinction between a cross join and an inner join, for example, or more generally show any distinction between different types of join predicate or provide a framework for reasoning about how they will operate.
There is no substitute for understanding the logical processing and it is relatively simple to grasp anyway.
First start with a
SELECT A.Colour, B.Colour FROM A CROSS JOIN B
Inner and Outer joins have an "ON" clause predicate.
SELECT A.Colour, B.Colour FROM A INNER JOIN B ON A.Colour = B.Colour
The above is the classic equi join.
SELECT A.Colour, B.Colour FROM A INNER JOIN B ON A.Colour NOT IN ('Green','Blue')
The inner join condition need not necessarily be an equality condition and it need not reference columns from both (or even either) of the tables. Evaluating
SELECT A.Colour, B.Colour FROM A INNER JOIN B ON 1 =1
The join condition evaluates to true for all rows in the cross join result so this is just the same as a cross join. I won't repeat the picture of the 16 rows again.
SELECT A.Colour, B.Colour FROM A LEFT OUTER JOIN B ON A.Colour = B.Colour
Outer Joins are logically evaluated in the same way as inner joins except that if a row from the left table (for a left join) does not join with any rows from the right hand table at all it is preserved in the result with
SELECT A.Colour, B.Colour FROM A LEFT OUTER JOIN B ON A.Colour = B.Colour WHERE B.Colour IS NULL
This simply restricts the previous result to only return the rows where
It is important to select a column for the
SELECT A.Colour, B.Colour FROM A RIGHT OUTER JOIN B ON A.Colour = B.Colour
Right outer joins act similarly to left outer joins except they preserve non matching rows from the right table and null extend the left hand columns.
SELECT A.Colour, B.Colour FROM A FULL OUTER JOIN B ON A.Colour = B.Colour
Full outer joins combine the behaviour of left and right joins and preserve the non matching rows from both the left and the right tables.
SELECT A.Colour, B.Colour FROM A FULL OUTER JOIN B ON 1 = 0
No rows in the cross join match the
SELECT A.Colour, B.Colour FROM A LEFT OUTER JOIN B ON A.Colour = B.Colour WHERE B.Colour = 'Green'
Note that the
... And then the "Where" clause runs.
If the intention was to include only rows from B where Colour is Green and all rows from A regardless the correct syntax would be
SELECT A.Colour, B.Colour FROM A LEFT OUTER JOIN B ON A.Colour = B.Colour AND B.Colour = 'Green'
In simple words:
An inner join retrieve the matched rows only.
Whereas an outer join retrieve the matched rows from one table and all rows in other table ....the result depends on which one you are using:
Joins can be categorized as:
Inner joins (the typical join operation, which uses some comparison operator like = or <>). These include equi-joins and natural joins.
Inner joins use a comparison operator to match rows from two tables based on the values in common columns from each table. For example, retrieving all rows where the student identification number is the same in both the students and courses tables.
Outer joins. Outer joins can be a left, a right, or full outer join.
Outer joins are specified with one of the following sets of keywords when they are specified in the FROM clause:
LEFT JOIN or LEFT OUTER JOIN -The result set of a left outer join includes all the rows from the left table specified in the LEFT OUTER clause, not just the ones in which the joined columns match. When a row in the left table has no matching rows in the right table, the associated result set row contains null values for all select list columns coming from the right table.
RIGHT JOIN or RIGHT OUTER JOIN - A right outer join is the reverse of a left outer join. All rows from the right table are returned. Null values are returned for the left table any time a right table row has no matching row in the left table.
FULL JOIN or FULL OUTER JOIN - A full outer join returns all rows in both the left and right tables. Any time a row has no match in the other table, the select list columns from the other table contain null values. When there is a match between the tables, the entire result set row contains data values from the base tables.
Cross joins - Cross joins return all rows from the left table, each row from the left table is combined with all rows from the right table. Cross joins are also called Cartesian products. (A Cartesian join will get you a Cartesian product. A Cartesian join is when you join every row of one table to every row of another table. You can also get one by joining every row of a table to every row of itself.)
Inner joins require that a record with a related ID exist in the joined table.
Outer joins will return records for the left side even if nothing exists for the right side.
For instance, you have an Orders and an OrderDetails table. They are related by an "OrderID".
will only return Orders that also have something in the OrderDetails table.
If you change it to OUTER LEFT JOIN
then it will return records from the Orders table even if they have no OrderDetails records.
You can use this to find Orders that do not have any OrderDetails indicating a possible orphaned order by adding a where clause like
You use INNER JOIN to return all rows from both tables where there is a match. ie. in the resulting table all the rows and colums will have values.
In OUTER JOIN the relulting table may have empty colums. Outer join may be either LEFT or RIGHT
LEFT OUTER JOIN returns all the rows from the first table, even if there are no matches in the second table.
RIGHT OUTER JOIN returns all the rows from the second table, even if there are no matches in the first table..
The difference is in the way tables are joined if there are no common records.
Inner join. A join is combining the rows from two tables. An inner join attempts to match up the two tables based on the criteria you specify in the query, and only returns the rows that match. If a row from the first table in the join matches two rows in the second table, then two rows will be returned in the results. If there’s a row in the first table that doesn’t match a row in the second, it’s not returned; likewise, if there’s a row in the second table that doesn’t match a row in the first, it’s not returned.
Outer Join. A left join attempts to find match up the rows from the first table to rows in the second table. If it can’t find a match, it will return the columns from the first table and leave the columns from the second table blank (null).
Joins are used to combine the data from two tables, with the result being a new, temporary table. Joins are performed based on something called a predicate, which specifies the condition to use in order to perform a join. The difference between an inner join and an outer join is that an inner join will return only the rows that actually match based on the join predicate. Here we have 2 tables that we will use for our example:
Inner Join: Inner join creates a new result table by combining column values of two tables (Employee and Location) based upon the join-predicate. The query compares each row of Employee with each row of Location to find all pairs of rows which satisfy the join-predicate. When the join-predicate is satisfied by matching non-NULL values, column values for each matched pair of rows of Employee and Location are combined into a result row. Here’s what the SQL for an inner join will look like:
Now, here is what the result of running that SQL would look like:
Outer Join: An outer join does not require each record in the two joined tables to have a matching record. The joined table retains each record—even if no other matching record exists. Outer joins subdivide further into left outer joins and right outer joins, depending on which table's rows are retained (left or right).
Left Outer Join The result of a left outer join (or simply left join) for tables Employee and Location always contains all records of the "left" table (Employee), even if the join-condition does not find any matching record in the "right" table (Location). Here is what the SQL for a left outer join would look like, using the tables above:
Now, here is what the result of running this SQL would look like:
Right Outer Join A right outer join (or right join) closely resembles a left outer join, except with the treatment of the tables reversed. Every row from the "right" table (Location) will appear in the joined table at least once. If no matching row from the "left" table (Employee) exists, NULL will appear in columns from Employee for those records that have no match in Location. This is what the SQL looks like:
Using the tables presented above, we can show what the result set of a right outer join would look like:
I don't see much details about performance and optimizer in the other answers.
Sometimes it is good to know that only inner join is associative which means the optimizer has the most option to play with it. It can reorder the join order to make it faster keeping the same result. The optimizer can use the most join modes.
Generally it is a good practice to try to use inner joins instead of the different kind of outers. (Of course if it is possible considering the expected result set.)
There are a couple of good examples and explanation here about this strange associative behaviour:
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