mirror of
https://github.com/LemmyNet/lemmy.git
synced 2024-11-24 05:11:18 +00:00
147 lines
5.5 KiB
MySQL
147 lines
5.5 KiB
MySQL
|
-- Each calculation used in triggers should be a single SQL language
|
||
|
-- expression so it can be inlined in migrations.
|
||
|
CREATE FUNCTION r.controversy_rank (upvotes numeric, downvotes numeric)
|
||
|
RETURNS float
|
||
|
LANGUAGE sql
|
||
|
IMMUTABLE PARALLEL SAFE RETURN CASE WHEN downvotes <= 0
|
||
|
OR upvotes <= 0 THEN
|
||
|
0
|
||
|
ELSE
|
||
|
(
|
||
|
upvotes + downvotes) * CASE WHEN upvotes > downvotes THEN
|
||
|
downvotes::float / upvotes::float
|
||
|
ELSE
|
||
|
upvotes::float / downvotes::float
|
||
|
END
|
||
|
END;
|
||
|
|
||
|
CREATE FUNCTION r.hot_rank (score numeric, published timestamp with time zone)
|
||
|
RETURNS double precision
|
||
|
LANGUAGE sql
|
||
|
IMMUTABLE PARALLEL SAFE RETURN
|
||
|
-- after a week, it will default to 0.
|
||
|
CASE WHEN (
|
||
|
now() - published) > '0 days'
|
||
|
AND (
|
||
|
now() - published) < '7 days' THEN
|
||
|
-- Use greatest(2,score), so that the hot_rank will be positive and not ignored.
|
||
|
log (
|
||
|
greatest (2, score + 2)) / power (((EXTRACT(EPOCH FROM (now() - published)) / 3600) + 2), 1.8)
|
||
|
ELSE
|
||
|
-- if the post is from the future, set hot score to 0. otherwise you can game the post to
|
||
|
-- always be on top even with only 1 vote by setting it to the future
|
||
|
0.0
|
||
|
END;
|
||
|
|
||
|
CREATE FUNCTION r.scaled_rank (score numeric, published timestamp with time zone, users_active_month numeric)
|
||
|
RETURNS double precision
|
||
|
LANGUAGE sql
|
||
|
IMMUTABLE PARALLEL SAFE
|
||
|
-- Add 2 to avoid divide by zero errors
|
||
|
-- Default for score = 1, active users = 1, and now, is (0.1728 / log(2 + 1)) = 0.3621
|
||
|
-- There may need to be a scale factor multiplied to users_active_month, to make
|
||
|
-- the log curve less pronounced. This can be tuned in the future.
|
||
|
RETURN (
|
||
|
r.hot_rank (score, published) / log(2 + users_active_month)
|
||
|
);
|
||
|
|
||
|
-- For tables with `deleted` and `removed` columns, this function determines which rows to include in a count.
|
||
|
CREATE FUNCTION r.is_counted (item record)
|
||
|
RETURNS bool
|
||
|
LANGUAGE plpgsql
|
||
|
IMMUTABLE PARALLEL SAFE
|
||
|
AS $$
|
||
|
BEGIN
|
||
|
RETURN COALESCE(NOT (item.deleted
|
||
|
OR item.removed), FALSE);
|
||
|
END;
|
||
|
$$;
|
||
|
|
||
|
-- This function creates statement-level triggers for all operation types. It's designed this way
|
||
|
-- because of these limitations:
|
||
|
-- * A trigger that uses transition tables can only handle 1 operation type.
|
||
|
-- * Transition tables must be relevant for the operation type (for example, `NEW TABLE` is
|
||
|
-- not allowed for a `DELETE` trigger)
|
||
|
-- * Transition tables are only provided to the trigger function, not to functions that it calls.
|
||
|
--
|
||
|
-- This function can only be called once per table. The trigger function body given as the 2nd argument
|
||
|
-- and can contain these names, which are replaced with a `SELECT` statement in parenthesis if needed:
|
||
|
-- * `select_old_rows`
|
||
|
-- * `select_new_rows`
|
||
|
-- * `select_old_and_new_rows` with 2 columns:
|
||
|
-- 1. `count_diff`: `-1` for old rows and `1` for new rows, which can be used with `sum` to get the number
|
||
|
-- to add to a count
|
||
|
-- 2. (same name as the trigger's table): the old or new row as a composite value
|
||
|
CREATE PROCEDURE r.create_triggers (table_name text, function_body text)
|
||
|
LANGUAGE plpgsql
|
||
|
AS $a$
|
||
|
DECLARE
|
||
|
defs text := $$
|
||
|
-- Delete
|
||
|
CREATE FUNCTION r.thing_delete_statement ()
|
||
|
RETURNS TRIGGER
|
||
|
LANGUAGE plpgsql
|
||
|
AS function_body_delete;
|
||
|
CREATE TRIGGER delete_statement
|
||
|
AFTER DELETE ON thing REFERENCING OLD TABLE AS select_old_rows
|
||
|
FOR EACH STATEMENT
|
||
|
EXECUTE FUNCTION r.thing_delete_statement ( );
|
||
|
-- Insert
|
||
|
CREATE FUNCTION r.thing_insert_statement ( )
|
||
|
RETURNS TRIGGER
|
||
|
LANGUAGE plpgsql
|
||
|
AS function_body_insert;
|
||
|
CREATE TRIGGER insert_statement
|
||
|
AFTER INSERT ON thing REFERENCING NEW TABLE AS select_new_rows
|
||
|
FOR EACH STATEMENT
|
||
|
EXECUTE FUNCTION r.thing_insert_statement ( );
|
||
|
-- Update
|
||
|
CREATE FUNCTION r.thing_update_statement ( )
|
||
|
RETURNS TRIGGER
|
||
|
LANGUAGE plpgsql
|
||
|
AS function_body_update;
|
||
|
CREATE TRIGGER update_statement
|
||
|
AFTER UPDATE ON thing REFERENCING OLD TABLE AS select_old_rows NEW TABLE AS select_new_rows
|
||
|
FOR EACH STATEMENT
|
||
|
EXECUTE FUNCTION r.thing_update_statement ( );
|
||
|
$$;
|
||
|
select_old_and_new_rows text := $$ (
|
||
|
SELECT
|
||
|
-1 AS count_diff,
|
||
|
old_table::thing AS thing
|
||
|
FROM
|
||
|
select_old_rows AS old_table
|
||
|
UNION ALL
|
||
|
SELECT
|
||
|
1 AS count_diff,
|
||
|
new_table::thing AS thing
|
||
|
FROM
|
||
|
select_new_rows AS new_table) $$;
|
||
|
empty_select_new_rows text := $$ (
|
||
|
SELECT
|
||
|
*
|
||
|
FROM
|
||
|
-- Real transition table
|
||
|
select_old_rows
|
||
|
WHERE
|
||
|
FALSE) $$;
|
||
|
empty_select_old_rows text := $$ (
|
||
|
SELECT
|
||
|
*
|
||
|
FROM
|
||
|
-- Real transition table
|
||
|
select_new_rows
|
||
|
WHERE
|
||
|
FALSE) $$;
|
||
|
BEGIN
|
||
|
function_body := replace(function_body, 'select_old_and_new_rows', select_old_and_new_rows);
|
||
|
-- `select_old_rows` and `select_new_rows` are made available as empty tables if they don't already exist
|
||
|
defs := replace(defs, 'function_body_delete', quote_literal(replace(function_body, 'select_new_rows', empty_select_new_rows)));
|
||
|
defs := replace(defs, 'function_body_insert', quote_literal(replace(function_body, 'select_old_rows', empty_select_old_rows)));
|
||
|
defs := replace(defs, 'function_body_update', quote_literal(function_body));
|
||
|
defs := replace(defs, 'thing', table_name);
|
||
|
EXECUTE defs;
|
||
|
END;
|
||
|
$a$;
|
||
|
|