The term "inlining" has a different meaning in Postgres. That usually refers to
language sql functions which are completely replaced by the contained query when used inside another query, e.g. this function
create or replace function customers_in_zip(p_zip_code varchar(5))
returns setof customers
where zip_code = p_zip_code;
used like this:
from orders o
join customers_in_zip('42') c on o.customer_id = c.id;
would be expanded by the optimizer to:
from orders o
join customers c on o.customer_id = c.id and c.zip_code = '42';
That type of inlining can be seen when generating the execution plan using
explain (analyze). For this to work the function has to be marked as
E.g. if the function can be "inlined", the plan looks something like this:
Nested Loop (cost=2.39..200.79 rows=79 width=52) (actual time=0.021..0.165 rows=115 loops=1)
-> Bitmap Heap Scan on public.customers (cost=1.97..20.71 rows=13 width=28) (actual time=0.014..0.023 rows=15 loops=1)
Recheck Cond: ((customers.zip_code)::text = '80807'::text)
-> Bitmap Index Scan on customers_zip_code_idx (cost=0.00..1.96 rows=13 width=0) (actual time=0.010..0.010 rows=15 loops=1)
Index Cond: ((customers.zip_code)::text = '80807'::text)
-> Index Scan using idx_orders_cust_id on public.orders o (cost=0.42..13.84 rows=8 width=24) (actual time=0.003..0.008 rows=8 loops=15)
Index Cond: (o.customer_id = customers.id)
As you can see, there is no reference to the function (the plan for the query without the function looks pretty much the same).
If the function is not inlined (e.g. because it was not declared
stable or because it's a PL/pgSQL function rather than a SQL function), the plan would look something like this:
Nested Loop (cost=0.68..139.94 rows=77 width=110) (actual time=0.710..0.862 rows=115 loops=1)
-> Function Scan on public.customers_in_zip c (cost=0.25..0.26 rows=10 width=86) (actual time=0.696..0.697 rows=15 loops=1)
Function Call: customers_in_zip('42'::character varying)
Buffers: shared hit=18
-> Index Scan using idx_orders_cust_id on public.orders o (cost=0.42..13.96 rows=8 width=24) (actual time=0.004..0.009 rows=8 loops=15)
Output: o.id, o.customer_id, o.order_date, o.amount, o.sales_person_id
Index Cond: (o.customer_id = c.id)
From your description, it seems you are not referring to that kind of "inlining", but rather whether a scalar function is only called once if it does not depend on values take from the row, e.g.:
select col1, some_function(), col2
some_function() is declared
immutable it will only be called once.
Quote from the manual
IMMUTABLE indicates that the function cannot modify the database and always returns the same result when given the same argument values; [...] If this option is given, any call of the function with all-constant arguments can be immediately replaced with the function value.
That is not something you can see directly in the execution plan, but the following will demonstrate it:
create function expensive_scalar(p_some_input integer)
return p_some_input * 2;
perform pg_sleep(10); makes the function take 10 seconds to execution. The following query will call that function a hundred times:
select i, expensive_scalar(2)
from generate_series(1,100) i;
But the execution is just a little bit over 10 seconds, which clearly shows the function is only called once.
As far as I know, Postgres will also cache results for functions marked as
stable during the execution of a single statement (for the same input values).
That is a bit harder to show though. Typically you can do that by putting
raise notice statements (Postgres' equivalent to
print) into the function and see how often they are printed.