SELECT INTO Statement

The SELECT INTO statement retrieves data from one or more database tables, and assigns the selected values to variables or collections. For a full description of the SELECT statement, see Oracle Database SQL Reference.

In its default usage (SELECT ... INTO), this statement retrieves one or more columns from a single row. In its bulk usage (SELECT ... BULK COLLECT INTO), this statement retrieves an entire result set at once.

Syntax

Description of the illustration select_into_statement.gif

Description of the illustration select_item.gif

Keyword and Parameter Description

alias

Another (usually short) name for the referenced column, table, or view.

BULK COLLECT

Stores result values in one or more collections, for faster queries than loops with FETCH statements. For more information, see "Reducing Loop Overhead for DML Statements and Queries (FORALL, BULK COLLECT)".

collection_name

A declared collection into which select_item values are fetched. For each select_item, there must be a corresponding, type-compatible collection in the list.

function_name

A user-defined function.

host_array_name

An array (declared in a PL/SQL host environment and passed to PL/SQL as a bind variable) into which select_item values are fetched. For each select_item, there must be a corresponding, type-compatible array in the list. Host arrays must be prefixed with a colon.

numeric_literal

A literal that represents a number or a value implicitly convertible to a number.

parameter_name

A formal parameter of a user-defined function.

record_name

A user-defined or %ROWTYPE record into which rows of values are fetched. For each select_item value returned by the query, there must be a corresponding, type-compatible field in the record.

rest_of_statement

Anything that can follow the FROM clause in a SQL SELECT statement (except the SAMPLE clause).

schema_name

The schema containing the table or view. If you omit schema_name, Oracle assumes the table or view is in your schema.

subquery

A SELECT statement that provides a set of rows for processing. Its syntax is like that of select_into_statement without the INTO clause. See "SELECT INTO Statement".

table_reference

A table or view that must be accessible when you execute the SELECT statement, and for which you must have SELECT privileges. For the syntax of table_reference, see "DELETE Statement".

TABLE (subquery2)

The operand of TABLE is a SELECT statement that returns a single column value, which must be a nested table or a varray. Operator TABLE informs Oracle that the value is a collection, not a scalar value.

variable_name

A previously declared variable into which a select_item value is fetched. For each select_item value returned by the query, there must be a corresponding, type-compatible variable in the list.

Usage Notes

By default, a SELECT INTO statement must return only one row. Otherwise, PL/SQL raises the predefined exception TOO_MANY_ROWS and the values of the variables in the INTO clause are undefined. Make sure your WHERE clause is specific enough to only match one row

If no rows are returned, PL/SQL raises NO_DATA_FOUND. You can guard against this exception by selecting the result of an aggregate function, such as COUNT(*) or AVG(), where practical. These functions are guaranteed to return a single value, even if no rows match the condition.

A SELECT ... BULK COLLECT INTO statement can return multiple rows. You must set up collection variables to hold the results. You can declare associative arrays or nested tables that grow as needed to hold the entire result set.

The implicit cursor SQL and its attributes %NOTFOUND, %FOUND, %ROWCOUNT, and %ISOPEN provide information about the execution of a SELECT INTO statement.

Examples

The following example demonstrates using the SELECT INTO statement to query a single value into a PL/SQL variable, entire columns into PL/SQL collections, or entire rows into a PL/SQL collection of records:

DECLARE
   howmany NUMBER;
   some_first employees.first_name%TYPE;
   some_last employees.last_name%TYPE;
   some_employee employees%ROWTYPE;
   TYPE first_typ IS TABLE OF employees.first_name%TYPE INDEX BY PLS_INTEGER;
   TYPE last_typ IS TABLE OF employees.first_name%TYPE INDEX BY PLS_INTEGER;
   first_names first_typ;
   last_names last_typ;
   CURSOR c1 IS SELECT first_name, last_name FROM employees;
   TYPE name_typ IS TABLE OF c1%ROWTYPE INDEX BY PLS_INTEGER;
   all_names name_typ;
   TYPE emp_typ IS TABLE OF employees%ROWTYPE INDEX BY PLS_INTEGER;
   all_employees emp_typ;
BEGIN
-- Query a single value and store it in a variable.
   SELECT COUNT(*) INTO howmany FROM user_tables;
   dbms_output.put_line('This schema owns ' || howmany || ' tables.');

-- Query multiple columns from one row, and store them in variables.
   SELECT first_name, last_name INTO some_first, some_last
      FROM employees WHERE ROWNUM < 2;
   dbms_output.put_line('Random employee: ' || some_first ||
      ' ' || some_last);

-- Query a single row and store it in a record.
   SELECT * INTO some_employee FROM employees WHERE ROWNUM < 2;

-- Query multiple columns from multiple rows, and store them in a collection
-- of records.
   SELECT first_name, last_name BULK COLLECT INTO all_names FROM EMPLOYEES;

-- Query multiple columns from multiple rows, and store them in separate
-- collections. (Generally less useful than a single collection of records.)
   SELECT first_name, last_name
      BULK COLLECT INTO first_names, last_names
      FROM EMPLOYEES;

-- Query an entire (small!) table and store the rows
-- in a collection of records. Now you can manipulate the data
-- in-memory without any more I/O.
   SELECT * BULK COLLECT INTO all_employees FROM employees;
END;
/

Related Topics

Assignment Statement, FETCH Statement, %ROWTYPE Attribute