UPDATE — update rows of a table
[ WITH [ RECURSIVE ]with_query[, ...] ] UPDATE [ ONLY ]table_name[ * ] [ [ AS ]alias] SET {column_name= {expression| DEFAULT } | (column_name[, ...] ) = [ ROW ] ( {expression| DEFAULT } [, ...] ) | (column_name[, ...] ) = (sub-SELECT) } [, ...] [ FROMfrom_list] [ WHEREcondition| WHERE CURRENT OFcursor_name] [ RETURNING * |output_expression[ [ AS ]output_name] [, ...] ]
UPDATE changes the values of
the specified columns in all rows that satisfy the condition.
Only the columns to be modified need be mentioned in the
SET clause; columns not explicitly
modified retain their previous values.
There are two ways to modify a table using information
contained in other tables in the database: using sub-selects,
or specifying additional tables in the FROM clause. Which technique is more
appropriate depends on the specific circumstances.
The optional RETURNING clause
causes UPDATE to compute and
return value(s) based on each row actually updated. Any
expression using the table's columns, and/or columns of other
tables mentioned in FROM, can be
computed. The new (post-update) values of the table's columns
are used. The syntax of the RETURNING list is identical to that of the
output list of SELECT.
You must have the UPDATE
privilege on the table, or at least on the column(s) that are
listed to be updated. You must also have the SELECT privilege on any column whose values
are read in the expressions or condition.
with_queryThe WITH clause allows
you to specify one or more subqueries that can be
referenced by name in the UPDATE query. See Section 7.8
and SELECT
for details.
table_nameThe name (optionally schema-qualified) of the table to
update. If ONLY is specified
before the table name, matching rows are updated in the
named table only. If ONLY is
not specified, matching rows are also updated in any
tables inheriting from the named table. Optionally,
* can be specified after the
table name to explicitly indicate that descendant tables
are included.
aliasA substitute name for the target table. When an alias
is provided, it completely hides the actual name of the
table. For example, given UPDATE
foo AS f, the remainder of the UPDATE statement must refer to this
table as f not foo.
column_nameThe name of a column in the table named by table_name. The column
name can be qualified with a subfield name or array
subscript, if needed. Do not include the table's name in
the specification of a target column — for example,
UPDATE table_name SET
table_name.col = 1 is invalid.
expressionAn expression to assign to the column. The expression can use the old values of this and other columns in the table.
DEFAULTSet the column to its default value (which will be NULL if no specific default expression has been assigned to it).
sub-SELECTA SELECT sub-query that
produces as many output columns as are listed in the
parenthesized column list preceding it. The sub-query
must yield no more than one row when executed. If it
yields one row, its column values are assigned to the
target columns; if it yields no rows, NULL values are
assigned to the target columns. The sub-query can refer
to old values of the current row of the table being
updated.
from_listA list of table expressions, allowing columns from
other tables to appear in the WHERE condition and the update
expressions. This is similar to the list of tables that
can be specified in the FROM
Clause of a SELECT
statement. Note that the target table must not appear in
the from_list,
unless you intend a self-join (in which case it must
appear with an alias in the from_list).
conditionAn expression that returns a value of type
boolean. Only rows for which
this expression returns true
will be updated.
cursor_nameThe name of the cursor to use in a WHERE CURRENT OF condition. The row to
be updated is the one most recently fetched from this
cursor. The cursor must be a non-grouping query on the
UPDATE's target table. Note
that WHERE CURRENT OF cannot
be specified together with a Boolean condition. See
DECLARE
for more information about using cursors with
WHERE CURRENT OF.
output_expressionAn expression to be computed and returned by the
UPDATE command after each
row is updated. The expression can use any column names
of the table named by table_name or table(s)
listed in FROM. Write
* to return all columns.
output_nameA name to use for a returned column.
On successful completion, an UPDATE command returns a command tag of the
form
UPDATE count
The count is the
number of rows updated, including matched rows whose values did
not change. Note that the number may be less than the number of
rows that matched the condition when updates were
suppressed by a BEFORE UPDATE
trigger. If count is
0, no rows were updated by the query (this is not considered an
error).
If the UPDATE command contains
a RETURNING clause, the result
will be similar to that of a SELECT statement containing the columns and
values defined in the RETURNING
list, computed over the row(s) updated by the command.
When a FROM clause is present,
what essentially happens is that the target table is joined to
the tables mentioned in the from_list, and each output row
of the join represents an update operation for the target
table. When using FROM you should
ensure that the join produces at most one output row for each
row to be modified. In other words, a target row shouldn't join
to more than one row from the other table(s). If it does, then
only one of the join rows will be used to update the target
row, but which one will be used is not readily predictable.
Because of this indeterminacy, referencing other tables only within sub-selects is safer, though often harder to read and slower than using a join.
In the case of a partitioned table, updating a row might cause it to no longer satisfy the partition constraint. Since there is no provision to move the row to the partition appropriate to the new value of its partitioning key, an error will occur in this case. This can also happen when updating a partition directly.
Change the word Drama to
Dramatic in the column
kind of the table films:
UPDATE films SET kind = 'Dramatic' WHERE kind = 'Drama';
Adjust temperature entries and reset precipitation to its
default value in one row of the table weather:
UPDATE weather SET temp_lo = temp_lo+1, temp_hi = temp_lo+15, prcp = DEFAULT WHERE city = 'San Francisco' AND date = '2003-07-03';
Perform the same operation and return the updated entries:
UPDATE weather SET temp_lo = temp_lo+1, temp_hi = temp_lo+15, prcp = DEFAULT WHERE city = 'San Francisco' AND date = '2003-07-03' RETURNING temp_lo, temp_hi, prcp;
Use the alternative column-list syntax to do the same update:
UPDATE weather SET (temp_lo, temp_hi, prcp) = (temp_lo+1, temp_lo+15, DEFAULT) WHERE city = 'San Francisco' AND date = '2003-07-03';
Increment the sales count of the salesperson who manages the
account for Acme Corporation, using the FROM clause syntax:
UPDATE employees SET sales_count = sales_count + 1 FROM accounts WHERE accounts.name = 'Acme Corporation' AND employees.id = accounts.sales_person;
Perform the same operation, using a sub-select in the
WHERE clause:
UPDATE employees SET sales_count = sales_count + 1 WHERE id = (SELECT sales_person FROM accounts WHERE name = 'Acme Corporation');
Update contact names in an accounts table to match the currently assigned salesmen:
UPDATE accounts SET (contact_first_name, contact_last_name) =
(SELECT first_name, last_name FROM salesmen
WHERE salesmen.id = accounts.sales_id);
A similar result could be accomplished with a join:
UPDATE accounts SET contact_first_name = first_name,
contact_last_name = last_name
FROM salesmen WHERE salesmen.id = accounts.sales_id;
However, the second query may give unexpected results if
salesmen.id is not a unique key, whereas the first
query is guaranteed to raise an error if there are multiple
id matches. Also, if there is
no match for a particular accounts.sales_id entry, the first query will set
the corresponding name fields to NULL, whereas the second query
will not update that row at all.
Update statistics in a summary table to match the current data:
UPDATE summary s SET (sum_x, sum_y, avg_x, avg_y) =
(SELECT sum(x), sum(y), avg(x), avg(y) FROM data d
WHERE d.group_id = s.group_id);
Attempt to insert a new stock item along with the quantity of stock. If the item already exists, instead update the stock count of the existing item. To do this without failing the entire transaction, use savepoints:
BEGIN;
-- other operations
SAVEPOINT sp1;
INSERT INTO wines VALUES('Chateau Lafite 2003', '24');
-- Assume the above fails because of a unique key violation,
-- so now we issue these commands:
ROLLBACK TO sp1;
UPDATE wines SET stock = stock + 24 WHERE winename = 'Chateau Lafite 2003';
-- continue with other operations, and eventually
COMMIT;
Change the kind column of
the table films in the row on
which the cursor c_films is
currently positioned:
UPDATE films SET kind = 'Dramatic' WHERE CURRENT OF c_films;
This command conforms to the SQL standard, except that the FROM and RETURNING clauses are PostgreSQL extensions, as is the ability
to use WITH with UPDATE.
Some other database systems offer a FROM option in which the target table is
supposed to be listed again within FROM. That is not how PostgreSQL interprets FROM. Be careful when porting applications
that use this extension.
According to the standard, the source value for a
parenthesized sub-list of target column names can be any
row-valued expression yielding the correct number of columns.
PostgreSQL only allows the
source value to be a row constructor or a
sub-SELECT. An individual column's
updated value can be specified as DEFAULT in the row-constructor case, but not
inside a sub-SELECT.
If you see anything in the documentation that is not correct, does not match your experience with the particular feature or requires further clarification, please use this form to report a documentation issue.