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The contrib/spi module provides several workable examples of using SPI and triggers. While these functions are of some value in their own right, they are even more useful as examples to modify for your own purposes. The functions are general enough to be used with any table, but you have to specify table and field names (as described below) while creating a trigger.
check_primary_key()
and
check_foreign_key()
are used to check foreign key constraints.
(This functionality is long since superseded by the built-in foreign
key mechanism, of course, but the module is still useful as an example.)
check_primary_key()
checks the referencing table.
To use, create a BEFORE INSERT OR UPDATE trigger using this
function on a table referencing another table. Specify as the trigger
arguments: the referencing table's column name(s) which form the foreign
key, the referenced table name, and the column names in the referenced table
which form the primary/unique key. To handle multiple foreign
keys, create a trigger for each reference.
check_foreign_key()
checks the referenced table.
To use, create a BEFORE DELETE OR UPDATE trigger using this
function on a table referenced by other table(s). Specify as the trigger
arguments: the number of referencing tables for which the function has to
perform checking, the action if a referencing key is found
(cascade — to delete the referencing row,
restrict — to abort transaction if referencing keys
exist, setnull — to set referencing key fields to null),
the triggered table's column names which form the primary/unique key, then
the referencing table name and column names (repeated for as many
referencing tables as were specified by first argument). Note that the
primary/unique key columns should be marked NOT NULL and should have a
unique index.
There are examples in refint.example.
Long ago, PostgreSQL had a built-in time travel feature that kept the insert and delete times for each tuple. This can be emulated using these functions. To use these functions, you must add to a table two columns of abstime type to store the date when a tuple was inserted (start_date) and changed/deleted (stop_date):
CREATE TABLE mytab ( ... ... start_date abstime, stop_date abstime ... ... );
The columns can be named whatever you like, but in this discussion we'll call them start_date and stop_date.
When a new row is inserted, start_date should normally be set to current time, and stop_date to infinity. The trigger will automatically substitute these values if the inserted data contains nulls in these columns. Generally, inserting explicit non-null data in these columns should only be done when re-loading dumped data.
Tuples with stop_date equal to infinity are "valid now", and can be modified. Tuples with a finite stop_date cannot be modified anymore — the trigger will prevent it. (If you need to do that, you can turn off time travel as shown below.)
For a modifiable row, on update only the stop_date in the tuple being updated will be changed (to current time) and a new tuple with the modified data will be inserted. Start_date in this new tuple will be set to current time and stop_date to infinity.
A delete does not actually remove the tuple but only sets its stop_date to current time.
To query for tuples "valid now", include stop_date = 'infinity' in the query's WHERE condition. (You might wish to incorporate that in a view.) Similarly, you can query for tuples valid at any past time with suitable conditions on start_date and stop_date.
timetravel()
is the general trigger function that supports
this behavior. Create a BEFORE INSERT OR UPDATE OR DELETE
trigger using this function on each time-traveled table. Specify two
trigger arguments: the actual
names of the start_date and stop_date columns.
Optionally, you can specify one to three more arguments, which must refer
to columns of type text. The trigger will store the name of
the current user into the first of these columns during INSERT, the
second column during UPDATE, and the third during DELETE.
set_timetravel()
allows you to turn time-travel on or off for
a table.
set_timetravel('mytab', 1) will turn TT ON for table mytab.
set_timetravel('mytab', 0) will turn TT OFF for table mytab.
In both cases the old status is reported. While TT is off, you can modify
the start_date and stop_date columns freely. Note that the on/off status
is local to the current database session — fresh sessions will
always start out with TT ON for all tables.
get_timetravel()
returns the TT state for a table without
changing it.
There is an example in timetravel.example.
autoinc()
is a trigger that stores the next value of
a sequence into an integer field. This has some overlap with the
built-in "serial column" feature, but it is not the same:
autoinc()
will override attempts to substitute a
different field value during inserts, and optionally it can be
used to increment the field during updates, too.
To use, create a BEFORE INSERT (or optionally BEFORE INSERT OR UPDATE) trigger using this function. Specify two trigger arguments: the name of the integer column to be modified, and the name of the sequence object that will supply values. (Actually, you can specify any number of pairs of such names, if you'd like to update more than one autoincrementing column.)
There is an example in autoinc.example.
insert_username()
is a trigger that stores the current
user's name into a text field. This can be useful for tracking
who last modified a particular row within a table.
To use, create a BEFORE INSERT and/or UPDATE trigger using this function. Specify a single trigger argument: the name of the text column to be modified.
There is an example in insert_username.example.
moddatetime()
is a trigger that stores the current
time into a timestamp field. This can be useful for tracking
the last modification time of a particular row within a table.
To use, create a BEFORE UPDATE trigger using this function. Specify a single trigger argument: the name of the timestamp column to be modified.
There is an example in moddatetime.example.