li7y/migrations/20240721221728_add_item_state.up.sql

-- SPDX-FileCopyrightText: 2024 Simon Bruder <simon@sbruder.de>
--
-- SPDX-License-Identifier: AGPL-3.0-or-later

-- This datbase design is inspired by the following two blog posts by Felix Geisendörfer and Raphael Medaer:
--
-- https://felixge.de/2017/07/27/implementing-state-machines-in-postgresql/
-- https://raphael.medaer.me/2019/06/12/pgfsm.html
--
-- I chose a design that makes a compromise between both designs.
-- To simplify modifying transitions, it uses a table for storing the transitions,
-- but it does not version it, as the design should not radically change.

CREATE TYPE item_state AS ENUM (
  'borrowed',
  'inactive',
  'loaned',
  'owned'
);

CREATE TYPE item_event AS ENUM (
  'acquire',
  'borrow',
  'buy',
  'dispose',
  'gift',
  'loan',
  'lose',
  'recieve_gift',
  'return_borrowed',
  'return_loaned',
  'sell',
  'use'
);

CREATE TABLE item_events_transitions (
  state item_state,
  event item_event,
  next item_state,
  PRIMARY KEY (state, event, next)
);

INSERT INTO item_events_transitions VALUES
  ('inactive', 'buy', 'owned'),
  ('inactive', 'recieve_gift', 'owned'),
  ('inactive', 'acquire', 'owned'),
  ('inactive', 'borrow', 'borrowed'),
  ('owned', 'sell', 'inactive'),
  ('owned', 'gift', 'inactive'),
  ('owned', 'lose', 'inactive'),
  ('owned', 'use', 'inactive'),
  ('owned', 'dispose', 'inactive'),
  ('owned', 'loan', 'loaned'),
  ('loaned', 'return_loaned', 'owned'),
  ('borrowed', 'return_borrowed', 'inactive');

CREATE FUNCTION item_events_transition(_state item_state, _event item_event)
RETURNS item_state AS $$
SELECT next
  FROM item_events_transitions
  WHERE state = _state AND event = _event;
$$ LANGUAGE sql STRICT;

CREATE AGGREGATE item_events_fsm(item_event) (
  SFUNC = item_events_transition,
  STYPE = item_state,
  INITCOND = 'inactive'
);

CREATE TABLE item_events (
  id SERIAL PRIMARY KEY,
  item UUID NOT NULL REFERENCES items(id),
  date DATE NOT NULL DEFAULT now(),
  event item_event NOT NULL,
  description VARCHAR NOT NULL DEFAULT ''
);

CREATE FUNCTION check_item_events_fsm()
RETURNS trigger AS $$
BEGIN
  IF (SELECT item_events_fsm(event ORDER BY id) FROM (
    SELECT id, event FROM item_events WHERE item = NEW.item
    UNION ALL
    SELECT NEW.id, NEW.event
  ) events) IS NULL THEN
    RAISE EXCEPTION 'Event not possible from current state';
  END IF;

  RETURN NEW;
END
$$ LANGUAGE plpgsql;

CREATE TRIGGER check_item_events_fsm
  BEFORE INSERT ON item_events
  FOR EACH ROW
  EXECUTE PROCEDURE check_item_events_fsm();

CREATE FUNCTION check_item_events_delete()
RETURNS trigger AS $$
BEGIN
  IF (SELECT OLD.id <> max(id) FROM item_events WHERE item = OLD.item) THEN
    RAISE EXCEPTION 'Only the last event of an item can be deleted';
  END IF;

  RETURN OLD;
END
$$ LANGUAGE plpgsql;

CREATE TRIGGER check_item_events_delete
  BEFORE DELETE ON item_events
  FOR EACH ROW
  EXECUTE PROCEDURE check_item_events_delete();

CREATE VIEW item_states AS
  -- probably not the best query, but it works
  SELECT
      items.id AS "item",
      state,
      event AS "last_event",
      date AS "last_event_date",
      item_events.description AS "last_event_description"
    FROM item_events
    -- items without eny event must be included
    RIGHT JOIN items
      ON item_events.item = items.id
    JOIN (
      SELECT
          item_events_fsm(event ORDER BY item_events.id) AS "state",
          max(item_events.id) AS "id",
          items.id AS "item"
        FROM item_events
        -- see above
        RIGHT JOIN items
          ON item_events.item = items.id
        GROUP BY item_events.item, items.id
    ) last_event
      ON items.id = last_event.item AND (item_events.id = last_event.id OR last_event.id IS NULL);

CREATE FUNCTION add_default_item_event()
RETURNS TRIGGER AS $$
BEGIN
  INSERT INTO item_events (item, event, description)
    VALUES (NEW.id, 'acquire', 'automatically added on item insert');

  RETURN NEW;
END;
$$ LANGUAGE plpgsql;

CREATE TRIGGER add_default_item_event
  AFTER INSERT ON items
  FOR EACH ROW
  EXECUTE FUNCTION add_default_item_event();

INSERT INTO item_events (item, event, description)
  SELECT id, 'acquire', 'automatically added on migration' FROM items;
Add item state 2024-07-22 23:31:11 +02:00			`-- SPDX-FileCopyrightText: 2024 Simon Bruder <simon@sbruder.de>`
			`--`
			`-- SPDX-License-Identifier: AGPL-3.0-or-later`

			`-- This datbase design is inspired by the following two blog posts by Felix Geisendörfer and Raphael Medaer:`
			`--`
			`-- https://felixge.de/2017/07/27/implementing-state-machines-in-postgresql/`
			`-- https://raphael.medaer.me/2019/06/12/pgfsm.html`
			`--`
			`-- I chose a design that makes a compromise between both designs.`
			`-- To simplify modifying transitions, it uses a table for storing the transitions,`
			`-- but it does not version it, as the design should not radically change.`

			`CREATE TYPE item_state AS ENUM (`
			`'borrowed',`
			`'inactive',`
			`'loaned',`
			`'owned'`
			`);`

			`CREATE TYPE item_event AS ENUM (`
			`'acquire',`
			`'borrow',`
			`'buy',`
			`'dispose',`
			`'gift',`
			`'loan',`
			`'lose',`
			`'recieve_gift',`
			`'return_borrowed',`
			`'return_loaned',`
			`'sell',`
			`'use'`
			`);`

			`CREATE TABLE item_events_transitions (`
			`state item_state,`
			`event item_event,`
			`next item_state,`
			`PRIMARY KEY (state, event, next)`
			`);`

			`INSERT INTO item_events_transitions VALUES`
			`('inactive', 'buy', 'owned'),`
			`('inactive', 'recieve_gift', 'owned'),`
			`('inactive', 'acquire', 'owned'),`
			`('inactive', 'borrow', 'borrowed'),`
			`('owned', 'sell', 'inactive'),`
			`('owned', 'gift', 'inactive'),`
			`('owned', 'lose', 'inactive'),`
			`('owned', 'use', 'inactive'),`
			`('owned', 'dispose', 'inactive'),`
			`('owned', 'loan', 'loaned'),`
			`('loaned', 'return_loaned', 'owned'),`
			`('borrowed', 'return_borrowed', 'inactive');`

			`CREATE FUNCTION item_events_transition(_state item_state, _event item_event)`
			`RETURNS item_state AS $$`
			`SELECT next`
			`FROM item_events_transitions`
			`WHERE state = _state AND event = _event;`
			`$$ LANGUAGE sql STRICT;`

			`CREATE AGGREGATE item_events_fsm(item_event) (`
			`SFUNC = item_events_transition,`
			`STYPE = item_state,`
			`INITCOND = 'inactive'`
			`);`

			`CREATE TABLE item_events (`
			`id SERIAL PRIMARY KEY,`
			`item UUID NOT NULL REFERENCES items(id),`
			`date DATE NOT NULL DEFAULT now(),`
			`event item_event NOT NULL,`
			`description VARCHAR NOT NULL DEFAULT ''`
			`);`

			`CREATE FUNCTION check_item_events_fsm()`
			`RETURNS trigger AS $$`
			`BEGIN`
			`IF (SELECT item_events_fsm(event ORDER BY id) FROM (`
			`SELECT id, event FROM item_events WHERE item = NEW.item`
			`UNION ALL`
			`SELECT NEW.id, NEW.event`
			`) events) IS NULL THEN`
			`RAISE EXCEPTION 'Event not possible from current state';`
			`END IF;`

			`RETURN NEW;`
			`END`
			`$$ LANGUAGE plpgsql;`

			`CREATE TRIGGER check_item_events_fsm`
			`BEFORE INSERT ON item_events`
			`FOR EACH ROW`
			`EXECUTE PROCEDURE check_item_events_fsm();`

			`CREATE FUNCTION check_item_events_delete()`
			`RETURNS trigger AS $$`
			`BEGIN`
			`IF (SELECT OLD.id <> max(id) FROM item_events WHERE item = OLD.item) THEN`
			`RAISE EXCEPTION 'Only the last event of an item can be deleted';`
			`END IF;`

			`RETURN OLD;`
			`END`
			`$$ LANGUAGE plpgsql;`

			`CREATE TRIGGER check_item_events_delete`
			`BEFORE DELETE ON item_events`
			`FOR EACH ROW`
			`EXECUTE PROCEDURE check_item_events_delete();`

			`CREATE VIEW item_states AS`
			`-- probably not the best query, but it works`
			`SELECT`
			`items.id AS "item",`
			`state,`
			`event AS "last_event",`
			`date AS "last_event_date",`
			`item_events.description AS "last_event_description"`
			`FROM item_events`
			`-- items without eny event must be included`
			`RIGHT JOIN items`
			`ON item_events.item = items.id`
			`JOIN (`
			`SELECT`
			`item_events_fsm(event ORDER BY item_events.id) AS "state",`
			`max(item_events.id) AS "id",`
			`items.id AS "item"`
			`FROM item_events`
			`-- see above`
			`RIGHT JOIN items`
			`ON item_events.item = items.id`
			`GROUP BY item_events.item, items.id`
			`) last_event`
			`ON items.id = last_event.item AND (item_events.id = last_event.id OR last_event.id IS NULL);`

			`CREATE FUNCTION add_default_item_event()`
			`RETURNS TRIGGER AS $$`
			`BEGIN`
			`INSERT INTO item_events (item, event, description)`
			`VALUES (NEW.id, 'acquire', 'automatically added on item insert');`

			`RETURN NEW;`
			`END;`
			`$$ LANGUAGE plpgsql;`

			`CREATE TRIGGER add_default_item_event`
			`AFTER INSERT ON items`
			`FOR EACH ROW`
			`EXECUTE FUNCTION add_default_item_event();`

			`INSERT INTO item_events (item, event, description)`
			`SELECT id, 'acquire', 'automatically added on migration' FROM items;`