You cannot modify the value anymore after the row was inserted. Therefore
SET NEW.column is only available in a
Also you cannot use a regular
UPDATE either because:
A stored function or trigger cannot modify a table that is already
being used (for reading or writing) by the statement that invoked the
function or trigger.
Finally, in a
BEFORE INSERT trigger, the
AUTO_INCREMENT value has not been generated yet, and
The trick: in a
BEFORE trigger, manually check the table definition for the next
WARNING: this only works with MyISAM, not with InnoDB
I suppose it could work with InnoDB if
innodb_autoinc_lock_mode = 0 but I am unable to tell for sure.
CREATE TRIGGER insertTable1 BEFORE INSERT ON Table1 FOR EACH ROW
DECLARE next_ai INT;
SELECT auto_increment INTO next_ai
WHERE table_schema=DATABASE() AND table_name = 'Table1';
SET NEW.hash = calc_hash_udf(next_ai);
As for the concurrent-proof property of this approach, I can say:
with MyISAM, where only table-locks are available, the safety is obvious: an exclusive lock on the table(s) is acquired by any
DELETE, and no concurrent access can happen.
with InnoDB, this is less obvious. For the "traditional lock mode", the manual says:
InnoDB uses a special lock called the table-level AUTO-INC lock for
inserts into tables with AUTO_INCREMENT columns. This lock is normally
held to the end of the statement
I suppose this is safe in this case.
I am not familiar with these concepts, so I couldn't tell for sure. It seems dubious indeed.
I have run the below test with different settings for
CREATE TABLE t (
ai INT AUTO_INCREMENT PRIMARY KEY,
A trigger on the table does
SET NEW.trigval = next_ai with the method above.
In one transaction, a long INSERT is made by:
INSERT INTO t SELECT null, null, 0 FROM (SELECT * FROM a_very_big_table) AS tmp;
In a second transaction, I constantly issue the following statement:
INSERT INTO t VALUES (null, null, 1);
At the end, I search for discrepancies:
SELECT * FROM t WHERE ai <> trigval;
innodb_autoinc_lock_mode = 0 ("traditional") it seems to be safe. Any concurrent attempt to insert into the table is locked until completion of the long
However, I did not expect that, with modes
1 (the default) and
2, this approach is plainly wrong.
information_schema.tables.auto_increment is updated by steps. This is the result I got:
| ai | trigval | flag |
| 3 | 4 | 0 |
| 5 | 8 | 0 |
| 9 | 16 | 0 |
| 17 | 32 | 0 |
| 33 | 64 | 0 |
| 65 | 128 | 0 |