I have a Postgres function with a lot of duplicated logic. If I were writing this in, say, Ruby, I would extract the duplicated logic into a few private helper methods. But there doesn't seem to be an equivalent of "private methods" in Postgres.
Original Function
CREATE OR REPLACE FUNCTION drop_create_idx_constraint(in_operation varchar, in_table_name_or_all_option varchar) RETURNS integer AS $$
DECLARE
cur_drop_for_specific_tab CURSOR (tab_name varchar) IS SELECT drop_stmt FROM table_indexes WHERE table_indexes.table_name = table_name_to_drop;
cur_drop_for_all_tab CURSOR IS SELECT drop_stmt FROM table_indexes;
cur_create_for_specific_tab CURSOR (tab_name varchar) IS SELECT recreate_stmt FROM table_indexes WHERE table_indexes.table_name = table_name_to_drop;
cur_create_for_all_tab CURSOR IS SELECT recreate_stmt FROM table_indexes;
BEGIN
IF upper(in_operation) = 'DROP' THEN
IF upper(in_table_name_or_all_option) ='ALL' THEN
FOR table_record IN cur_drop_for_all_tab LOOP
EXECUTE table_record.drop_stmt;
END LOOP;
ELSE
FOR table_record IN cur_drop_for_specific_tab(in_table_name_or_all_option) LOOP
EXECUTE table_record.drop_stmt;
END LOOP;
END IF;
ELSIF upper(in_operation) = 'CREATE' THEN
IF upper(in_table_name_or_all_option) ='ALL' THEN
FOR table_record IN cur_create_for_all_tab LOOP
EXECUTE table_record.recreate_stmt;
END LOOP;
ELSE
FOR table_record IN cur_create_for_specific_tab(in_table_name_or_all_option) LOOP
EXECUTE table_record.recreate_stmt;
END LOOP;
END IF;
END IF;
RETURN 1;
END;
$$ LANGUAGE plpgsql;
Refactored Function(s)
CREATE OR REPLACE FUNCTION execute_recreate_stmt_from_records(input_cursor refcursor) RETURNS integer AS $$
BEGIN
FOR table_record IN input_cursor LOOP
EXECUTE table_record.recreate_stmt;
END LOOP;
RETURN 1;
END;
$$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION execute_drop_stmt_from_records(input_cursor refcursor) RETURNS integer AS $$
BEGIN
FOR table_record IN input_cursor LOOP
EXECUTE table_record.drop_stmt;
END LOOP;
RETURN 1;
END;
$$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION drop_indexes_and_constraints(table_name_to_drop varchar) RETURNS integer AS $$
DECLARE
indexes_and_constraints CURSOR IS SELECT drop_stmt FROM table_indexes WHERE table_indexes.table_name = table_name_to_drop;
SELECT execute_drop_stmt_from_records(indexes_and_constraints);
$$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION drop_all_indexes_and_constraints() RETURNS integer AS $$
DECLARE
indexes_and_constraints CURSOR IS SELECT drop_stmt FROM table_indexes;
SELECT execute_drop_stmt_from_records(indexes_and_constraints);
$$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION recreate_indexes_and_constraints(table_name_to_recreate varchar) RETURNS integer AS $$
DECLARE
indexes_and_constraints CURSOR IS SELECT recreate_stmt FROM table_indexes WHERE table_indexes.table_name = table_name_to_recreate;
SELECT execute_recreate_stmt_from_records(indexes_and_constraints);
$$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION recreate_all_indexes_and_constraints() RETURNS integer AS $$
DECLARE
indexes_and_constraints CURSOR IS SELECT recreate_stmt FROM table_indexes;
SELECT execute_recreate_stmt_from_records(indexes_and_constraints);
$$ LANGUAGE plpgsql;
I believe the underlying problem with my refactor is that the helper functions, execute_recreate_stmt_from_records
and execute_drop_stmt_from_records
, are way too powerful to be publicly accessible, especially since Heroku (which hosts this DB) only allows one DB user. Of course, if there are other problems with the above refactor, feel free to point them out.