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I wonder about a slump in performance when a simple SQL function is declared STRICT. I stumbled upon this phenomenon while answering a question here.

To demonstrate the effect I create two variants of a simple SQL function that orders two elements of an array in ascending order.

Test setup

-- temporary table with 10000 random pairs of integer
CREATE TEMP TABLE arr (i int[]);

INSERT INTO arr 
SELECT ARRAY[(random() * 1000)::int, (random() * 1000)::int]
FROM   generate_series(1,10000);

Function with STRICT modifier:

CREATE OR REPLACE FUNCTION f_sort_array1(int[])  RETURNS int[] AS
$$
SELECT CASE WHEN $1[1] > $1[2] THEN ARRAY[$1[2], $1[1]] ELSE $1 END;
$$ LANGUAGE sql STRICT IMMUTABLE;

Function without STRICT modifier (otherwise identical):

CREATE OR REPLACE FUNCTION f_sort_array2(int[])  RETURNS int[] AS
$$
SELECT CASE WHEN $1[1] > $1[2] THEN ARRAY[$1[2], $1[1]] ELSE $1 END;
$$ LANGUAGE sql IMMUTABLE;

Results

I executed each around 20 times and took the best result from EXPLAIN ANALYZE.

SELECT f_sort_array1(i) FROM arr  -- Total runtime: 103 ms
SELECT f_sort_array2(i) FROM arr  -- Total runtime:  43 ms (!!!)

These are the results from a v9.0.5 server on Debian Squeeze. Similar results on v8.4. Did not test on 9.1, have no cluster at my disposal right now. (Can someone supply additional results for v9.1?)

Edit: In a test with 10000 NULL values both functions perform the same in the same test environment: ~37 ms.

I did some research and found an interesting gotcha. Declaring an SQL function STRICT disables function-inlining in most cases. More about that in the PostgreSQL Online Journal or in the pgsql-performance mailing list.

But I am not quite sure how this could be the explanation. How can not inlining the function cause the performance slump in this simple scenario? No index, no disc read, no sorting. Maybe an overhead from the repeated function call that is streamlined away by inlining the function? Can you explain it? Or am I missing something?


Retest with Postgres 9.1

Ran the same test on the same hardware with PostgreSQL 9.1 an found even bigger differences:

SELECT f_sort_array1(i) FROM arr  -- Total runtime: 107 ms
SELECT f_sort_array2(i) FROM arr  -- Total runtime:  27 ms (!!!)
share|improve this question
1  
These two functions are not equivalent. STRICT is not a hint but an instruction, "don't call this with null arguments". This will result in a not null check that you haven't explicitly asked for, hence comment not answer. I am however surprised that when I tested this on a table with a NOT NULL modifier, this still has the same effect. –  couling Dec 10 '11 at 11:20
    
@couling: The example function yields identical results with or without STRICT. "Common sense" would tell me that STRICT is faster, if NULL values are involved, but that's not the case. I added a quick test with NULLs to my question. –  Erwin Brandstetter Dec 10 '11 at 11:34
2  
Just because null values are not involved does not mean postgres knows that they are not involved. It may still have to check. –  couling Dec 10 '11 at 12:05
    
Good and well researched question, why the downvote!? –  Mike Chamberlain Dec 4 '12 at 12:53

1 Answer 1

up vote 3 down vote accepted

Maybe an overhead from the repeated function call that is streamlined away by inlining the function?

That's what I'd guess. You've got a very simple expression there. An actual function-call presumably involves stack setup, passing parameters etc.

The test below gives run-times of 5ms for inlined and 50ms for strict.

BEGIN;

CREATE SCHEMA f;

SET search_path = f;

CREATE FUNCTION f1(int) RETURNS int AS $$SELECT 1$$ LANGUAGE SQL;
CREATE FUNCTION f2(int) RETURNS int AS $$SELECT 1$$ LANGUAGE SQL STRICT;

\timing on
SELECT sum(f1(i)) FROM generate_series(1,10000) i;
SELECT sum(f2(i)) FROM generate_series(1,10000) i;
\timing off

ROLLBACK;
share|improve this answer
1  
Yep, STRICT functions cannot be inlined, and thus can be a lot slower especially for simple expressions. Personally I'm a little surprised Pg doens't inline them effectively as CASE WHEN input IS NULL THEN NULL ELSE func(input) END (or some simpler-to-evaluate function-like equivalent) but I'm sure it can't be that simple or they would've done it long ago. –  Craig Ringer Dec 10 '11 at 15:29
    
@CraigRinger: There is one important difference between Richard's function and mine above. STRICT changes the result of this function when called with NULL. So it is remotely understandable that it should perform slower. The lesson we learn here: don't use STRICT for simple functions unless you need it. There is definitely potential here for optimization like you say, but it is small and for simple cases only, so we may never see it happen. This should be documented. I am pretty sure most people are surprised by the effect. –  Erwin Brandstetter Dec 10 '11 at 20:08

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