-- -- SELECT_DISTINCT -- -- -- awk '{print $3;}' onek.data | sort -n | uniq -- SELECT DISTINCT two FROM onek ORDER BY 1; -- -- awk '{print $5;}' onek.data | sort -n | uniq -- SELECT DISTINCT ten FROM onek ORDER BY 1; -- -- awk '{print $16;}' onek.data | sort -d | uniq -- SELECT DISTINCT string4 FROM onek ORDER BY 1; -- -- awk '{print $3,$16,$5;}' onek.data | sort -d | uniq | -- sort +0n -1 +1d -2 +2n -3 -- SELECT DISTINCT two, string4, ten FROM onek ORDER BY two using <, string4 using <, ten using <; -- -- awk '{print $2;}' person.data | -- awk '{if(NF!=1){print $2;}else{print;}}' - emp.data | -- awk '{if(NF!=1){print $2;}else{print;}}' - student.data | -- awk 'BEGIN{FS=" ";}{if(NF!=1){print $5;}else{print;}}' - stud_emp.data | -- sort -n -r | uniq -- SELECT DISTINCT p.age FROM person* p ORDER BY age using >; -- -- Check mentioning same column more than once -- EXPLAIN (VERBOSE, COSTS OFF) SELECT count(*) FROM (SELECT DISTINCT two, four, two FROM tenk1) ss; SELECT count(*) FROM (SELECT DISTINCT two, four, two FROM tenk1) ss; -- -- Compare results between plans using sorting and plans using hash -- aggregation. Force spilling in both cases by setting work_mem low. -- SET work_mem='64kB'; -- Produce results with sorting. SET enable_hashagg=FALSE; SET jit_above_cost=0; EXPLAIN (costs off) SELECT DISTINCT g%1000 FROM generate_series(0,9999) g; CREATE TABLE distinct_group_1 AS SELECT DISTINCT g%1000 FROM generate_series(0,9999) g; SET jit_above_cost TO DEFAULT; CREATE TABLE distinct_group_2 AS SELECT DISTINCT (g%1000)::text FROM generate_series(0,9999) g; SET enable_seqscan = 0; -- Check to see we get an incremental sort plan EXPLAIN (costs off) SELECT DISTINCT hundred, two FROM tenk1; RESET enable_seqscan; SET enable_hashagg=TRUE; -- Produce results with hash aggregation. SET enable_sort=FALSE; SET jit_above_cost=0; EXPLAIN (costs off) SELECT DISTINCT g%1000 FROM generate_series(0,9999) g; CREATE TABLE distinct_hash_1 AS SELECT DISTINCT g%1000 FROM generate_series(0,9999) g; SET jit_above_cost TO DEFAULT; CREATE TABLE distinct_hash_2 AS SELECT DISTINCT (g%1000)::text FROM generate_series(0,9999) g; SET enable_sort=TRUE; SET work_mem TO DEFAULT; -- Compare results (SELECT * FROM distinct_hash_1 EXCEPT SELECT * FROM distinct_group_1) UNION ALL (SELECT * FROM distinct_group_1 EXCEPT SELECT * FROM distinct_hash_1); (SELECT * FROM distinct_hash_1 EXCEPT SELECT * FROM distinct_group_1) UNION ALL (SELECT * FROM distinct_group_1 EXCEPT SELECT * FROM distinct_hash_1); DROP TABLE distinct_hash_1; DROP TABLE distinct_hash_2; DROP TABLE distinct_group_1; DROP TABLE distinct_group_2; -- Test parallel DISTINCT SET parallel_tuple_cost=0; SET parallel_setup_cost=0; SET min_parallel_table_scan_size=0; SET max_parallel_workers_per_gather=2; -- Ensure we get a parallel plan EXPLAIN (costs off) SELECT DISTINCT four FROM tenk1; -- Ensure the parallel plan produces the correct results SELECT DISTINCT four FROM tenk1; CREATE OR REPLACE FUNCTION distinct_func(a INT) RETURNS INT AS $$ BEGIN RETURN a; END; $$ LANGUAGE plpgsql PARALLEL UNSAFE; -- Ensure we don't do parallel distinct with a parallel unsafe function EXPLAIN (COSTS OFF) SELECT DISTINCT distinct_func(1) FROM tenk1; -- make the function parallel safe CREATE OR REPLACE FUNCTION distinct_func(a INT) RETURNS INT AS $$ BEGIN RETURN a; END; $$ LANGUAGE plpgsql PARALLEL SAFE; -- Ensure we do parallel distinct now that the function is parallel safe EXPLAIN (COSTS OFF) SELECT DISTINCT distinct_func(1) FROM tenk1; RESET max_parallel_workers_per_gather; RESET min_parallel_table_scan_size; RESET parallel_setup_cost; RESET parallel_tuple_cost; -- -- Test the planner's ability to use a LIMIT 1 instead of a Unique node when -- all of the distinct_pathkeys have been marked as redundant -- -- Ensure we get a plan with a Limit 1 EXPLAIN (COSTS OFF) SELECT DISTINCT four FROM tenk1 WHERE four = 0; -- Ensure the above gives us the correct result SELECT DISTINCT four FROM tenk1 WHERE four = 0; -- Ensure we get a plan with a Limit 1 EXPLAIN (COSTS OFF) SELECT DISTINCT four FROM tenk1 WHERE four = 0 AND two <> 0; -- Ensure no rows are returned SELECT DISTINCT four FROM tenk1 WHERE four = 0 AND two <> 0; -- Ensure we get a plan with a Limit 1 when the SELECT list contains constants EXPLAIN (COSTS OFF) SELECT DISTINCT four,1,2,3 FROM tenk1 WHERE four = 0; -- Ensure we only get 1 row SELECT DISTINCT four,1,2,3 FROM tenk1 WHERE four = 0; SET parallel_setup_cost=0; SET min_parallel_table_scan_size=0; SET max_parallel_workers_per_gather=2; -- Ensure we get a plan with a Limit 1 in both partial distinct and final -- distinct EXPLAIN (COSTS OFF) SELECT DISTINCT four FROM tenk1 WHERE four = 10; RESET max_parallel_workers_per_gather; RESET min_parallel_table_scan_size; RESET parallel_setup_cost; -- -- Also, some tests of IS DISTINCT FROM, which doesn't quite deserve its -- very own regression file. -- CREATE TEMP TABLE disttable (f1 integer); INSERT INTO DISTTABLE VALUES(1); INSERT INTO DISTTABLE VALUES(2); INSERT INTO DISTTABLE VALUES(3); INSERT INTO DISTTABLE VALUES(NULL); -- basic cases SELECT f1, f1 IS DISTINCT FROM 2 as "not 2" FROM disttable; SELECT f1, f1 IS DISTINCT FROM NULL as "not null" FROM disttable; SELECT f1, f1 IS DISTINCT FROM f1 as "false" FROM disttable; SELECT f1, f1 IS DISTINCT FROM f1+1 as "not null" FROM disttable; -- check that optimizer constant-folds it properly SELECT 1 IS DISTINCT FROM 2 as "yes"; SELECT 2 IS DISTINCT FROM 2 as "no"; SELECT 2 IS DISTINCT FROM null as "yes"; SELECT null IS DISTINCT FROM null as "no"; -- negated form SELECT 1 IS NOT DISTINCT FROM 2 as "no"; SELECT 2 IS NOT DISTINCT FROM 2 as "yes"; SELECT 2 IS NOT DISTINCT FROM null as "no"; SELECT null IS NOT DISTINCT FROM null as "yes";