SQLite: INTERSECT Operator
This SQLite tutorial explains how to use the INTERSECT operator with syntax and examples.
Description
The SQLite INTERSECT operator returns the intersection of 2 or more datasets. Each dataset is defined by a SELECT statement. If a record exists in both data sets, it will be included in the INTERSECT results. However, if a record exists in one data set and not in the other, it will be omitted from the INTERSECT results.
Intersect Query
Explanation: The INTERSECT query will return the records in the blue shaded area. These are the records that exist in both Dataset1 and Dataset2.
Each SELECT statement within the INTERSECT must have the same number of fields in the result sets with similar data types.
Syntax
The syntax for the INTERSECT operator in SQLite is:
SELECT expression1, expression2, ... expression_n FROM tables [WHERE conditions] INTERSECT SELECT expression1, expression2, ... expression_n FROM tables [WHERE conditions];
Parameters or Arguments
- expression1, expression2, expression_n
- The columns or calculations that you wish to retrieve.
- tables
- The tables that you wish to retrieve records from. There must be at least one table listed in the FROM clause.
- WHERE conditions
- Optional. These are conditions that must be met for the records to be selected.
Note
- There must be same number of expressions in both SELECT statements.
- The corresponding expressions must have the same data type in the SELECT statements. For example: expression1 must be the same data type in both the first and second SELECT statement.
Example - With Single Expression
The following is an INTERSECT operator example that has one field with the same data type:
SELECT department_id FROM departments INTERSECT SELECT department_id FROM employees;
In this INTERSECT example, if a department_id appeared in both the departments and employees table, it would appear in your result set.
Now, let's complicate our example further by adding WHERE conditions to the INTERSECT query.
SELECT department_id FROM departments WHERE department_id >= 25 INTERSECT SELECT department_id FROM employees WHERE last_name <> 'Anderson';
In this example, the WHERE clauses have been added to each of the datasets. The first dataset has been filtered so that only records from the departments table where the department_id is greater than or equal to 25 are returned. The second dataset has been filtered so that only records from the employees table are returned where the last_name is not equal to Anderson.
Example - With Multiple Expressions
Next, let's look at an example of how to use the INTERSECT operator in SQLite to return more than one column.
For example:
SELECT contact_id, last_name, first_name FROM contacts WHERE contact_id > 50 INTERSECT SELECT customer_id, last_name, first_name FROM customers WHERE last_name <> 'Peterson';
In this INTERSECT example, the query will return the records from the contacts table where the contact_id, last_name, and first_name values match the customer_id, last_name, and first_name value from the customers table.
There are WHERE conditions on each data set to further filter the results so that only records from the contacts are returned where the contact_id is greater than 50. The records from the customers table are returned where the last_name is not equal to Peterson.
Example - Using ORDER BY
The following is an INTERSECT example that uses a ORDER BY clause:
SELECT department_id, state FROM departments WHERE department_id >= 25 INTERSECT SELECT company_id, state FROM companies WHERE company_name LIKE 'T%' ORDER BY 1;
Since the column names are different between the two SELECT statements, it is more advantageous to reference the columns in the ORDER BY clause by their position in the result set. In this example, we've sorted the results by department_id / company_id in ascending order, as denoted by the ORDER BY 1
.
The contact_id / company_id fields are in position #1 in the result set.
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