TRUNCATE [ TABLE ] [ ONLY ] name [ * ] [, ... ] [ RESTART IDENTITY | CONTINUE IDENTITY ] [ CASCADE | RESTRICT ]
TRUNCATE quickly removes all rows from a set of tables. It has the same effect as an unqualified DELETE on each table, but since it does not actually scan the tables it is faster. Furthermore, it reclaims disk space immediately, rather than requiring a subsequent VACUUM operation. This is most useful on large tables.
The name (optionally schema-qualified) of a table to truncate. If ONLY is specified before the table name, only that table is truncated. If ONLY is not specified, the table and all its descendant tables (if any) are truncated. Optionally, * can be specified after the table name to explicitly indicate that descendant tables are included.
Automatically restart sequences owned by columns of the truncated table(s).
Do not change the values of sequences. This is the default.
Automatically truncate all tables that have foreign-key references to any of the named tables, or to any tables added to the group due to CASCADE.
Refuse to truncate if any of the tables have foreign-key references from tables that are not listed in the command. This is the default.
You must have the TRUNCATE privilege on a table to truncate it.
TRUNCATE acquires an ACCESS EXCLUSIVE lock on each table it operates on, which blocks all other concurrent operations on the table. If concurrent access to a table is required, then the DELETE command should be used instead.
TRUNCATE cannot be used on a table that has foreign-key references from other tables, unless all such tables are also truncated in the same command. Checking validity in such cases would require table scans, and the whole point is not to do one. The CASCADE option can be used to automatically include all dependent tables — but be very careful when using this option, or else you might lose data you did not intend to!
TRUNCATE will not fire any ON DELETE triggers that might exist for the tables. But it will fire ON TRUNCATE triggers. If ON TRUNCATE triggers are defined for any of the tables, then all BEFORE TRUNCATE triggers are fired before any truncation happens, and all AFTER TRUNCATE triggers are fired after the last truncation is performed. The triggers will fire in the order that the tables are to be processed (first those listed in the command, and then any that were added due to cascading).
TRUNCATE is not MVCC-safe. After truncation, the table will appear empty to concurrent transactions, if they are using a snapshot taken before the truncation occurred. See Section 13.5 for more details.
TRUNCATE is transaction-safe with respect to the data in the tables: the truncation will be safely rolled back if the surrounding transaction does not commit.
Any ALTER SEQUENCE RESTART operations performed as a consequence of using the RESTART IDENTITY option are nontransactional and will not be rolled back on failure. To minimize the risk, these operations are performed only after all the rest of TRUNCATE's work is done. However, there is still a risk if TRUNCATE is performed inside a transaction block that is aborted afterwards. For example, consider
BEGIN; TRUNCATE TABLE foo RESTART IDENTITY; COPY foo FROM ...; COMMIT;
If the COPY fails partway through, the table data rolls back correctly, but the sequences will be left with values that are probably smaller than they had before, possibly leading to duplicate-key failures or other problems in later transactions. If this is likely to be a problem, it's best to avoid using RESTART IDENTITY, and accept that the new contents of the table will have higher serial numbers than the old.
Truncate the tables bigtable and fattable:
TRUNCATE bigtable, fattable;
The same, and also reset any associated sequence generators:
TRUNCATE bigtable, fattable RESTART IDENTITY;
Truncate the table othertable, and cascade to any tables that reference othertable via foreign-key constraints:
TRUNCATE othertable CASCADE;
The SQL:2008 standard includes a TRUNCATE command with the syntax TRUNCATE TABLE tablename. The clauses CONTINUE IDENTITY/RESTART IDENTITY also appear in that standard but have slightly different but related meanings. Some of the concurrency behavior of this command is left implementation-defined by the standard, so the above notes should be considered and compared with other implementations if necessary.
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