A join is a query that combines rows from two or more tables, views, or materialized views. Oracle Database performs a join whenever multiple tables appear in the
FROM clause of the query. The select list of the query can select any columns from any of these tables. If any two of these tables have a column name in common, then you must qualify all references to these columns throughout the query with table names to avoid ambiguity.
Most join queries contain at least one join condition, either in the
FROM clause or in the
WHERE clause. The join condition compares two columns, each from a different table. To execute a join, Oracle Database combines pairs of rows, each containing one row from each table, for which the join condition evaluates to
TRUE. The columns in the join conditions need not also appear in the select list.
To execute a join of three or more tables, Oracle first joins two of the tables based on the join conditions comparing their columns and then joins the result to another table based on join conditions containing columns of the joined tables and the new table. Oracle continues this process until all tables are joined into the result. The optimizer determines the order in which Oracle joins tables based on the join conditions, indexes on the tables, and, any available statistics for the tables.
You cannot specify LOB columns in the
WHERE clause if the
WHERE clause contains the join condition. The use of LOBs in
WHERE clauses is also subject to other restrictions. See Oracle Database SecureFiles and Large Objects Developer's Guide for more information.
An equijoin is a join with a join condition containing an equality operator. An equijoin combines rows that have equivalent values for the specified columns. Depending on the internal algorithm the optimizer chooses to execute the join, the total size of the columns in the equijoin condition in a single table may be limited to the size of a data block minus some overhead. The size of a data block is specified by the initialization parameter
A band join is a special type of nonequijoin in which key values in one data set must fall within the specified range (“band”) of the second data set. The same table can serve as both the first and second data sets.
A self join is a join of a table to itself. This table appears twice in the
FROM clause and is followed by table aliases that qualify column names in the join condition. To perform a self join, Oracle Database combines and returns rows of the table that satisfy the join condition.
If two tables in a join query have no join condition, then Oracle Database returns their Cartesian product. Oracle combines each row of one table with each row of the other. A Cartesian product always generates many rows and is rarely useful. For example, the Cartesian product of two tables, each with 100 rows, has 10,000 rows. Always include a join condition unless you specifically need a Cartesian product. If a query joins three or more tables and you do not specify a join condition for a specific pair, then the optimizer may choose a join order that avoids producing an intermediate Cartesian product.
An inner join (sometimes called a simple join) is a join of two or more tables that returns only those rows that satisfy the join condition.
An outer join extends the result of a simple join. An outer join returns all rows that satisfy the join condition and also returns some or all of those rows from one table for which no rows from the other satisfy the join condition.
To write a query that performs an outer join of tables A and B and returns all rows from A (a left outer join), use the
JOINsyntax in the
FROMclause, or apply the outer join operator (+) to all columns of B in the join condition in the
WHEREclause. For all rows in A that have no matching rows in B, Oracle Database returns null for any select list expressions containing columns of B.
To write a query that performs an outer join of tables A and B and returns all rows from B (a right outer join), use the
JOINsyntax in the
FROMclause, or apply the outer join operator (+) to all columns of A in the join condition in the
WHEREclause. For all rows in B that have no matching rows in A, Oracle returns null for any select list expressions containing columns of A.
To write a query that performs an outer join and returns all rows from A and B, extended with nulls if they do not satisfy the join condition (a full outer join), use the
JOINsyntax in the
You cannot compare a column with a subquery in the
WHERE clause of any outer join, regardless which form you specify.
You can use outer joins to fill gaps in sparse data. Such a join is called a partitioned outer join and is formed using the
query_partition_clause of the
join_clause syntax. Sparse data is data that does not have rows for all possible values of a dimension such as time or department. For example, tables of sales data typically do not have rows for products that had no sales on a given date. Filling data gaps is useful in situations where data sparsity complicates analytic computation or where some data might be missed if the sparse data is queried directly.
Oracle recommends that you use the
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
You cannot specify the (+) operator in a query block that also contains
FROMclause join syntax.
The (+) operator can appear only in the
WHEREclause or, in the context of left-correlation (when specifying the
TABLEclause) in the
FROMclause, and can be applied only to a column of a table or view.
If A and B are joined by multiple join conditions, then you must use the (+) operator in all of these conditions. If you do not, then Oracle Database will return only the rows resulting from a simple join, but without a warning or error to advise you that you do not have the results of an outer join.
The (+) operator does not produce an outer join if you specify one table in the outer query and the other table in an inner query.
You cannot use the (+) operator to outer-join a table to itself, although self joins are valid. For example, the following statement is not valid:
-- The following statement is not valid: SELECT employee_id, manager_id FROM employees WHERE employees.manager_id(+) = employees.employee_id;
However, the following self join is valid:
SELECT e1.employee_id, e1.manager_id, e2.employee_id FROM employees e1, employees e2 WHERE e1.manager_id(+) = e2.employee_id ORDER BY e1.employee_id, e1.manager_id, e2.employee_id;
The (+) operator can be applied only to a column, not to an arbitrary expression. However, an arbitrary expression can contain one or more columns marked with the (+) operator.
WHEREcondition containing the (+) operator cannot be combined with another condition using the
WHEREcondition cannot use the
INcomparison condition to compare a column marked with the (+) operator with an expression.
WHERE clause contains a condition that compares a column from table B with a constant, then the (+) operator must be applied to the column so that Oracle returns the rows from table A for which it has generated nulls for this column. Otherwise Oracle returns only the results of a simple join.
In previous releases of Oracle Database, in a query that performed outer joins of more than two pairs of tables, a single table could be the null-generated table for only one other table. Beginning with Oracle Database 12c, a single table can be the null-generated table for multiple tables. For example, the following statement is allowed in Oracle Database 12c:
SELECT * FROM A, B, D WHERE A.c1 = B.c2(+) and D.c3 = B.c4(+);
In this example,
B, the null-generated table, is outer-joined to two tables,
D. Refer to SELECT for the syntax for an outer join.
An antijoin returns rows from the left side of the predicate for which there are no corresponding rows on the right side of the predicate. It returns rows that fail to match (
IN) the subquery on the right side.
A semijoin returns rows that match an
EXISTS subquery without duplicating rows from the left side of the predicate when multiple rows on the right side satisfy the criteria of the subquery.
Semijoin and antijoin transformation cannot be done if the subquery is on an
OR branch of the