--- pg_extension_name: pg_utility_trigger_functions pg_extension_version: 1.7.0 pg_readme_generated_at: 2023-03-31 15:11:55.002745+01 pg_readme_version: 0.6.1 --- # `pg_utility_trigger_functions` [![PGXN version](https://badge.fury.io/pg/pg_utility_trigger_functions.svg)](https://badge.fury.io/pg/pg_utility_trigger_functions) The `pg_utility_trigger_functions` PostgreSQL extensions bundles together some pet trigger functions that the extension author—[BigSmoke](https://www.bigsmoke.us/)—likes to walk through various PostgreSQL projects. Feel free to copy-paste individual functions if you don't want to introduce an extension dependency into your own extension/project. Just try to respect the PostgreSQL license that this extension was released under. ## Object reference ### Routines #### Function: `coalesce_sibling_fields()` Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` #### Function: `copy_fields_from_foreign_table()` The purpose of the `copy_fields_from_foreign_table()` trigger function is to copy the given fields from the row in the given foreign table pointed at by the given foreign key. It takes up to 4 arguments: 1. (required) the name of the foreign key column in the local table. 2. (required) the `regclass` (can be passed as `oid` or `name`) of the foreign relationship. 3. (required) the name of the identifying key column in the foreign table. 4. (optional) the columns that should be copied. This argument can be either: - omitted, so that all the columns (except for the foreign key columns specified as argument 1 and 3) will be copied (but remember that, more often than not, explicit is better than implicit); - an array with the names of the columns that should be copied; or - a `hstore` with the names of the columns in the local table as keys and the names of the corresponding columns in the foreign table as values. See the [`test__copy_fields_from_foreign_table()`](#procedure-test__copy_fields_from_foreign_table) routine for an example of this trigger function in action. Function return type: `trigger` #### Function: `fallback_to_fields_from_foreign_table()` The purpose of the `fallback_to_fields_from_foreign_table()` trigger function is to fallback to the given fields from the row in the given foreign table pointed at by the given foreign key, if, and only if, these fields are `NULL` in the local row. `fallback_to_fields_from_foreign_table()` takes up to 4 arguments: 1. (required): the name of the foreign key column in the local table. 2. (required): the `regclass` (can be passed as `oid` or `name`) of the foreign relationship. 3. (required): the name of the identifying key column in the foreign table. 4. (optional) the columns that should be copied. This argument can be either: - omitted, so that all the columns (except for the foreign key columns specified as argument 1 and 3) will be copied (but remember that, more often than not, explicit is better than implicit); - an array with the names of the columns that should be copied; or - a `hstore` with the names of the columns in the local table as keys and the names of the corresponding columns in the foreign table as values. See the [`test__fallback_to_fields_from_foreign_table()`](#routine-test__fallback_to_fields_from_foreign_table) routine for an example of this trigger function in action. Function return type: `trigger` #### Function: `no_delete()` Attach the `no_delete()` trigger function to a relationship to disallow `DELETE`s from that table when you want to go further than restricting `DELETE` permissions via `GRANT`. Add a `WHEN` condition to the trigger if you want to only block `DELETE`s in certain circumstances. Function return type: `trigger` #### Function: `nullify_columns()` The `nullify_columns()` trigger function is useful if you want to `nullify` certain relationship columns in the case of certain trigger events (e.g. `UPDATE`) or on certain `WHEN` conditions. `nullify_columns()` takes on of more column names that will be nullified when the trigger function is executed. Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` #### Function: `overwrite_composite_field_in_referencing_table()` Copy all the latest field values from this table to a composite field in another table that references it. `overwrite_composite_field_in_referencing_table()` takes 3 arguments: 1. Argument 1 (required): the identifying column referenced by the same-named foreign key in the composite field in the other table. 2. Argument 2 (required): the table with the composite field that references the present table. 3. Argument 3 (required): the name of the composite field in the foreign table. That field must have all the same subfields See the [`test__overwrite_composite_field_in_referencing_table()`](#procedure-test__overwrite_composite_field_in_referencing_table) routine for examples of this trigger function in action. Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` #### Function: `overwrite_fields_in_referencing_table()` Copy specific (or all same-named) field values from this table to a table that references it. `overwrite_fields_in_referencing_table()` takes 3 or 4 arguments: 1. Argument 1 (required): the identifying column referenced by the foreign key in the other table. 2. Argument 2 (required): the table that references the present table. 3. Argument 3 (required): the foreign key column in the other table. 4. Argument 4 (optional): the columns that should be copied. This argument can be either: - omitted, so that all the columns (except for the foreign key columns specified as argument 1 and 3) will be copied (but remember that, more often than not, explicit is better than implicit); - an array with the same-named columns that should be copied; or - a `hstore` with the names of the ccolumns in the local table as keys and the names of the corresponding columns in the referencing table as values. See the [`test__overwrite_fields_in_referencing_table()`](#procedure-test__overwrite_fields_in_referencing_table) routine for examples of this trigger function in action. Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` #### Function: `pg_utility_trigger_functions_meta_pgxn()` Returns the JSON meta data that has to go into the `META.json` file needed for [PGXN—PostgreSQL Extension Network](https://pgxn.org/) packages. The `Makefile` includes a recipe to allow the developer to: `make META.json` to refresh the meta file with the function's current output, including the `default_version`. `pg_utility_trigger_functions` can indeed be found on PGXN: https://pgxn.org/dist/pg_utility_trigger_functions/ Function return type: `jsonb` Function attributes: `STABLE` #### Function: `pg_utility_trigger_functions_readme()` Generates a `README.md` in Markdown format using the amazing power of the `pg_readme` extension. Temporarily installs `pg_readme` if it is not already installed in the current database. Function return type: `text` Function-local settings: * `SET search_path TO ext, public, pg_temp` * `SET pg_readme.include_view_definitions TO true` * `SET pg_readme.include_routine_definitions_like TO {test__%}` #### Function: `set_installed_extension_version_from_name()` Sets the installed extension version string in the column named in the second argument for the extension named in the second argument. See the [`test__set_installed_extension_version_from_name()` test procedure](#procedure-test__set_installed_extension_version_from_name) for a working example of this trigger function. Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` #### Procedure: `test__coalesce_sibling_fields()` Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` * `SET pg_readme.include_this_routine_definition TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__coalesce_sibling_fields() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' SET "pg_readme.include_this_routine_definition" TO 'true' AS $procedure$ declare _rec record; begin create table test__tbl (a text, b text); create trigger coalesce_a_to_b before insert on test__tbl for each row execute function coalesce_sibling_fields('a => b'); insert into test__tbl (a, b) values (null, 'teenager') returning * into _rec ; assert _rec.a = 'teenager'; insert into test__tbl (a, b) values ('adult', 'teenager') returning * into _rec ; assert _rec.a = 'adult'; raise transaction_rollback; exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__copy_fields_from_foreign_table()` This is the test routine for the `copy_fields_from_foreign_table()` trigger function. The routine name is compliant with the `pg_tst` extension. An intentional choice has been made to not _depend_ on the `pg_tst` extension its test runner or developer-friendly assertions to keep the number of inter-extension dependencies to a minimum. Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__copy_fields_from_foreign_table() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' AS $procedure$ declare _a1 record; _a2 record; _b record; _c record; begin create table test__a ( a_id int primary key ,val_1 text ,val_2 text ); insert into test__a (a_id, val_1, val_2) values (1, 'Een', 'Eentje') returning * into _a1; insert into test__a (a_id, val_1, val_2) values (2, 'Twee', 'Tweetje') returning * into _a2; create table test__b ( a_id int not null references test__a(a_id) ,val_1 text not null ,val_2 text ,b_val text ); <> begin create trigger copy_fields_from_a before insert or update on test__b for each row execute function copy_fields_from_foreign_table( 'a_id', 'test__a', 'a_id' -- 4th trigger func. arg. omitted ); insert into test__b (a_id, val_1, val_2, b_val) values (1, null, 'One', 'Uno') returning * into _b; assert _b.val_1 = _a1.val_1 and _b.val_2 = _a1.val_2, 'NULL value should have coalesced into value from the identically-name foreign table column.'; assert _b.val_2 = _a1.val_2, 'Local NOT NULL value should have been ruthlessly overwritten.'; assert _b.b_val = 'Uno', 'Column that doesn''t exist in foreign table should have been ignored.'; end trigger_for_all_same_named_columns; <> begin create or replace trigger copy_fields_from_a before insert or update on test__b for each row execute function copy_fields_from_foreign_table( 'a_id', 'test__a', 'a_id', '{val_1}' ); insert into test__b (a_id, val_2) values (1, 'waarde') returning * into _b; assert _b.val_1 = _a1.val_1, 'The specified column should have been overwritten with the foreign value.'; assert _b.val_2 = 'waarde', 'The non-specified column should be ignored by the trigger.'; end trigger_with_explicit_column_names; <> begin create table test__c ( aaa_id int not null references test__a(a_id) ,val_one text ,val_two text ); create trigger copy_fields_from_a before insert or update on test__c for each row execute function copy_fields_from_foreign_table( 'aaa_id', 'test__a', 'a_id', 'val_one=>val_1, val_two=>val_2' ); insert into test__c (aaa_id, val_one, val_two) values (1, 'Uno', null) returning * into _c; assert _c.val_one = _a1.val_1; assert _c.val_two = _a1.val_2; end; raise transaction_rollback; -- I could have use any error code, but this one seemed to fit best. exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__fallback_to_fields_from_foreign_table()` This is the test routine for the `fallback_to_fields_from_foreign_table()` trigger function. The routine name is compliant with the `pg_tst` extension. An intentional choice has been made to not _depend_ on the `pg_tst` extension its test runner or developer-friendly assertions to keep the number of inter-extension dependencies to a minimum. Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__fallback_to_fields_from_foreign_table() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' AS $procedure$ declare _a1 record; _a2 record; _b record; _c record; begin create table test__a ( a_id int primary key ,val_1 text ,val_2 text ,val_3 text ); insert into test__a (a_id, val_1, val_2, val_3) values (1, 'Een', 'Eentje', '1tje') returning * into _a1; insert into test__a (a_id, val_1, val_2, val_3) values (2, 'Twee', 'Tweetje', '2tje') returning * into _a2; create table test__b ( a_id int not null references test__a(a_id) ,val_1 text ,val_2 text ,val_3 text ); <> begin create trigger fallback before insert or update on test__b for each row execute function fallback_to_fields_from_foreign_table( 'a_id', 'test__a', 'a_id' -- 4th arg. omitted ); insert into test__b (a_id, val_1, val_2, val_3) values (1, null, null, null) returning * into _b; assert _b.val_1 = _a1.val_1 and _b.val_2 = _a1.val_2 and _b.val_3 = _a1.val_3, 'NULL values should have coalesced into values from the identically-name foreign table columns.'; insert into test__b (a_id, val_1, val_2, val_3) values (1, 'One', 'Un', null) returning * into _b; assert _b.val_1 = 'One' and _b.val_2 = 'Un', 'Local NOT NULL values should have been preserved.'; end; <> begin create or replace trigger fallback before insert or update on test__b for each row execute function fallback_to_fields_from_foreign_table( 'a_id', 'test__a', 'a_id', '{val_1, val_2}' ); insert into test__b (a_id, val_1, val_2, val_3) values (1, 'Uno', null, 'a') returning * into _b; assert _b.val_1 = 'Uno', 'The local NOT NULL value should have been preserved.'; assert _b.val_2 = 'Eentje', 'The NULL value should have been coalesced into the foreign value.'; assert _b.val_3 = 'a', 'This value should _not_ have been copied from the foreign table.'; insert into test__b (a_id, val_1, val_2, val_3) values (2, null, 'Doises', null) returning * into _b; assert _b.val_1 = 'Twee', 'The NULL value should have coalesced into the foreign value.'; assert _b.val_2 = 'Doises', 'The local NOT NULL value should have been preserved.'; assert _b.val_3 is null, 'Nothing should have happened to the column left out of the trigger definition.'; end trigger_with_explicit_column_names; <> begin create table test__c ( aaa_id int not null references test__a(a_id) ,val_one text ,val_two text ,val_three text ,val_3 text ); create trigger fallback before insert or update on test__c for each row execute function fallback_to_fields_from_foreign_table( 'aaa_id', 'test__a', 'a_id', 'val_one=>val_1, val_two=>val_2, val_3=>val_3' ); insert into test__c (aaa_id, val_one, val_two, val_3) values (1, 'Uno', null, 'a') returning * into _c; assert _c.val_one = 'Uno'; assert _c.val_two = _a1.val_2; assert _c.val_3 = 'a'; insert into test__c (aaa_id, val_one, val_two, val_3) values (2, null, 'Doises', null) returning * into _c; assert _c.val_one = _a2.val_1; assert _c.val_two = 'Doises'; assert _c.val_3 = _a2.val_3; end trigger_with_hstore_column_mapping; raise transaction_rollback; -- I could have use any error code, but this one seemed to fit best. exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__no_delete()` This routine tests the `no_delete()` trigger function. The routine name is compliant with the `pg_tst` extension. An intentional choice has been made to not _depend_ on the `pg_tst` extension its test runner or developer-friendly assertions to keep the number of inter-extension dependencies to a minimum. Procedure-local settings: * `SET plpgsql.check_asserts TO true` * `SET search_path TO ext, public, pg_temp` ```sql CREATE OR REPLACE PROCEDURE ext.test__no_delete() LANGUAGE plpgsql SET "plpgsql.check_asserts" TO 'true' SET search_path TO 'ext', 'public', 'pg_temp' AS $procedure$ begin create table test__tbl (id int); create trigger no_delete after delete on test__tbl for each row execute function no_delete(); insert into test__tbl (id) values (1), (2), (3); delete from test__tbl where id = 3; raise assert_failure using message = '`DELETE FROM test__tbl` should have been forbidden by trigger.'; exception when sqlstate 'P0DEL' then end; $procedure$ ``` #### Procedure: `test__nullify_columns()` This routine tests the `nullify_columns()` trigger function. The routine name is compliant with the `pg_tst` extension. An intentional choice has been made to not _depend_ on the `pg_tst` extension its test runner or developer-friendly assertions to keep the number of inter-extension dependencies to a minimum. Procedure-local settings: * `SET plpgsql.check_asserts TO true` * `SET search_path TO ext, public, pg_temp` ```sql CREATE OR REPLACE PROCEDURE ext.test__nullify_columns() LANGUAGE plpgsql SET "plpgsql.check_asserts" TO 'true' SET search_path TO 'ext', 'public', 'pg_temp' AS $procedure$ begin create table test__tbl (id int, a text, b timestamp default now()); create trigger nullify_a_for_some_b before insert or update on test__tbl for each row when (NEW.a = 'b should be null') execute function nullify_columns('b'); insert into test__tbl (id, a) values (1, 'b can be anything'), (2, 'b should be null'), (3, 'something'); assert (select b from test__tbl where id = 1) is not null; assert (select b from test__tbl where id = 2) is null; assert (select b from test__tbl where id = 3) is not null; update test__tbl set a = 'b should be null' where id = 3; assert (select b from test__tbl where id = 1) is not null; assert (select b from test__tbl where id = 2) is null; assert (select b from test__tbl where id = 3) is null; raise transaction_rollback; -- I could have use any error code, but this one seemed to fit best. exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__overwrite_composite_field_in_referencing_table()` Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` * `SET pg_readme.include_this_routine_definition TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__overwrite_composite_field_in_referencing_table() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' SET "pg_readme.include_this_routine_definition" TO 'true' AS $procedure$ declare _a1 record; _b1 record; begin create table test__a ( a_id int primary key ,val_1 text ,val_2 text ); insert into test__a (a_id, val_1, val_2) values (1, 'Een', 'Eentje') returning * into _a1; insert into test__a (a_id, val_1, val_2) values (2, 'Twee', 'Tweetje'); insert into test__a (a_id, val_1, val_2) values (3, 'Drie', 'Drietje'); create table test__b ( c_id int primary key ,c_col text ,a test__a not null ); insert into test__b (c_id, c_col, a) select 1, 'Ein', row(a.*)::test__a from test__a as a where a.a_id = _a1.a_id returning (test__b.a).* into _b1 ; assert _a1 = _b1; create or replace trigger overwrite_composite_field_in_referencing_table after update on test__a for each row execute function overwrite_composite_field_in_referencing_table('a_id', 'test__b', 'a'); update test__a set val_1 = 'still 1' ,val_2 = 'still 2' where a_id = _a1.a_id returning * into _a1 ; assert _a1 != _b1, 'The `test__a` record should have been updated (and out of sync with the not yet reretrieved' || ' composite `test__b.a` field.'; select (b.a).* into _b1 from test__b as b where c_id = 1; assert _a1 = _b1; raise transaction_rollback; exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__overwrite_fields_in_referencing_table()` Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` * `SET pg_readme.include_this_routine_definition TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__overwrite_fields_in_referencing_table() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' SET "pg_readme.include_this_routine_definition" TO 'true' AS $procedure$ declare _a1 record; _a2 record; _a3 record; _b1 record; _b2 record; _b3 record; begin create table test__a ( a_id int primary key ,val_1 text ,val_2 text ); insert into test__a (a_id, val_1, val_2) values (1, 'Een', 'Eentje') returning * into _a1; insert into test__a (a_id, val_1, val_2) values (2, 'Twee', 'Tweetje') returning * into _a2; insert into test__a (a_id, val_1, val_2) values (3, 'Drie', 'Drietje') returning * into _a3; create table test__b ( a_id int not null references test__a(a_id) ,val_1 text not null ,val_2 text ,b_val text ); insert into test__b (a_id, val_1, val_2, b_val) select a.a_id, a.val_1, a.val_2, 'One' from test__a as a where a.a_id = _a1.a_id ; insert into test__b (a_id, val_1, val_2, b_val) select a.a_id, a.val_1, a.val_2, 'Two' from test__a as a where a.a_id = _a2.a_id ; insert into test__b (a_id, val_1, val_2, b_val) select a.a_id, a.val_1, a.val_2, 'Three' from test__a as a where a.a_id = _a3.a_id ; <> begin create trigger overwrite_fields_in_referencing_table after update on test__a for each row execute function overwrite_fields_in_referencing_table( 'a_id', 'test__b', 'a_id' -- 4th trigger func. arg. omitted ); update test__a set val_1 = 'Uno' ,val_2 = 'Unoooo' where a_id = _a1.a_id returning * into _a1 ; select b.* into _b1 from test__b as b where b.a_id = _a1.a_id; assert _a1.val_1 = _b1.val_1; assert _a1.val_2 = _b1.val_2; end trigger_for_all_same_named_columns; <> begin create or replace trigger overwrite_fields_in_referencing_table after update on test__a for each row execute function overwrite_fields_in_referencing_table( 'a_id', 'test__b', 'a_id', '{val_1}' ); select b.* into _b2 from test__b as b where b.a_id = _a2.a_id; assert _a2.val_1 = _b2.val_1; assert _a2.val_2 = _b2.val_2; update test__a set val_1 = 'Deux' ,val_2 = 'Petit deux' where a_id = _a2.a_id returning * into _a2 ; assert _a2.val_1 != _b2.val_1; assert _a2.val_2 != _b2.val_2; select b.* into _b2 from test__b as b where b.a_id = _a2.a_id; assert _a2.val_1 = _b2.val_1; assert _a2.val_2 != _b2.val_2; end trigger_with_column_name_array; <> begin create or replace trigger overwrite_fields_in_referencing_table after update on test__a for each row execute function overwrite_fields_in_referencing_table( 'a_id', 'test__b', 'a_id', 'val_1 => val_1' ); select b.* into _b3 from test__b as b where b.a_id = _a3.a_id; assert _a3.val_1 = _b3.val_1; assert _a3.val_2 = _b3.val_2; update test__a set val_1 = 'Tres' ,val_2 = 'Petit tres' where a_id = _a3.a_id returning * into _a3 ; assert _a3.val_1 != _b3.val_1; assert _a3.val_2 != _b3.val_2; select b.* into _b3 from test__b as b where b.a_id = _a3.a_id; assert _a3.val_1 = _b3.val_1; assert _a3.val_2 != _b3.val_2; end trigger_with_hstore_column_mapping; raise transaction_rollback; exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__set_installed_extension_version_from_name()` Procedure-local settings: * `SET search_path TO ext, public, pg_temp` * `SET plpgsql.check_asserts TO true` * `SET pg_readme.include_this_routine_definition TO true` ```sql CREATE OR REPLACE PROCEDURE ext.test__set_installed_extension_version_from_name() LANGUAGE plpgsql SET search_path TO 'ext', 'public', 'pg_temp' SET "plpgsql.check_asserts" TO 'true' SET "pg_readme.include_this_routine_definition" TO 'true' AS $procedure$ declare _expect record; _actual record; _msg text; _hint text; begin create table test__tbl( id serial primary key ,ext_name name ,ext_version text ); <> begin create trigger set_installed_extension_version_from_name before insert on test__tbl for each row execute function set_installed_extension_version_from_name( 'ext_name' ,'ext_version' ); insert into test__tbl default values; raise assert_failure using message = 'The trigger should have raised an exception about an unexpected NULL.'; exception when null_value_not_allowed then get stacked diagnostics _msg := message_text ,_hint := pg_exception_hint ; assert _msg = format('Unexpected %I.test__tbl.ext_name IS NULL', current_schema); assert _hint = 'Try adding a `WHEN (NEW.ext_name IS NOT NULL)` condition to the trigger.'; end missing_when_condition_in_trigger; create trigger set_installed_extension_version_from_name before insert on test__tbl for each row when (NEW.ext_name is not null) execute function set_installed_extension_version_from_name( 'ext_name' ,'ext_version' ); _expect := row(2, null, null)::test__tbl; insert into test__tbl default values returning * into _actual; assert _actual = _expect, format('%s ≠ %s', _actual, _expect); _expect := row( 3 ,'pg_utility_trigger_functions' ,(select extversion from pg_extension where extname = 'pg_utility_trigger_functions') )::test__tbl; insert into test__tbl (ext_name) values (_expect.ext_name) returning * into _actual; assert _actual = _expect, format('%s ≠ %s', _actual, _expect); <> begin insert into test__tbl (ext_name) values ('invalid_extension_name'); raise assert_failure using message = 'The trigger should have raised an exception about unrecognized extension.'; exception when no_data_found then get stacked diagnostics _msg := message_text; assert _msg = format( 'Could not find extension invalid_extension_name referenced in %I.test__tbl.ext_name' ,current_schema ); end not_installed_extension_name; raise transaction_rollback; exception when transaction_rollback then end; $procedure$ ``` #### Procedure: `test__update_updated_at()` This routine tests the `update_updated_at()` trigger function. The routine name is compliant with the `pg_tst` extension. An intentional choice has been made to not _depend_ on the `pg_tst` extension its test runner or developer-friendly assertions to keep the number of inter-extension dependencies to a minimum. Procedure-local settings: * `SET plpgsql.check_asserts TO true` * `SET search_path TO ext, public, pg_temp` ```sql CREATE OR REPLACE PROCEDURE ext.test__update_updated_at() LANGUAGE plpgsql SET "plpgsql.check_asserts" TO 'true' SET search_path TO 'ext', 'public', 'pg_temp' AS $procedure$ begin create table test__tbl (val int, updated_at timestamptz); create trigger update_updated_at before insert or update on test__tbl for each row execute function update_updated_at(); insert into test__tbl(val) values (1), (2), (3); assert (select pg_catalog.count(*) from test__tbl where updated_at = pg_catalog.now()) = 3; -- The mocking could have easier been done with the `pg_mockable` extension instead, but let's be light -- on the inter-extension dependencies. create schema test__mock; create function test__mock.now() returns timestamptz language sql return pg_catalog.now() + interval '1 minute'; assert test__mock.now() > pg_catalog.now(); alter function update_updated_at() set search_path to test__mock, pg_catalog, pg_temp; update test__tbl set val = 10 + val where val = 1; assert (select pg_catalog.count(*) from test__tbl where updated_at > pg_catalog.now()) = 1, (select string_agg(distinct updated_at::text, ' ') from test__tbl); raise transaction_rollback; -- I could have use any error code, but this one seemed to fit best. exception when transaction_rollback then end; $procedure$ ``` #### Function: `update_updated_at()` The `update_updated_at` trigger function sets the `updated_at` column of its relation to `now()` whenever that relation is updated (or inserted into). `update_updated_at()` uses `now()` without a schema qualifier rather than `pg_catalog.now()`, to allow the mocking of now by manipulating the function's `search_path`, for example to prepend the `mockable` schema from the [`pg_mockable`](https://github.com/bigsmoke/pg_mockable) extension to it. Function return type: `trigger` Function-local settings: * `SET search_path TO ext, public, pg_temp` ## Colophon This `README.md` for the `pg_utility_trigger_functions` extension was automatically generated using the [`pg_readme`](https://github.com/bigsmoke/pg_readme) PostgreSQL extension.