# WL10398: Improve SELECT COUNT(*) performance by using # handler::records(index) in execution phase. # Mixed SE in a single statement will need to call ha_records from execute # phase only. --source include/force_myisam_default.inc --source include/have_myisam.inc CREATE TABLE t_innodb(c1 INT NOT NULL PRIMARY KEY, c2 INT NOT NULL, c3 char(20), KEY c3_idx(c3))ENGINE=INNODB; INSERT INTO t_innodb VALUES (1, 1, 'a'), (2,2,'a'), (3,3,'a'); ANALYZE TABLE t_innodb; CREATE TABLE t_myisam(c1 INT NOT NULL PRIMARY KEY, c2 INT NOT NULL DEFAULT 1, c3 char(20), KEY c3_idx(c3)) ENGINE=MYISAM; INSERT INTO t_myisam(c1) VALUES (1), (2); ANALYZE TABLE t_myisam; # ha_records is called from execution phase. let query1= SELECT COUNT(*) FROM t_innodb; # Tables are optimized away because there is HA_COUNT_ROWS_INSTANT let query2= SELECT COUNT(*) FROM t_myisam; # Neither table is optimized away. ha_records is called from execution phase # for both tables. let query3= SELECT COUNT(*) FROM t_myisam, t_innodb; # Uses table scan for MIN(c2) because there is no index on c2. let query4= SELECT MIN(c2), COUNT(*), MAX(c1) FROM t_innodb; # Uses c3_idx for MIN -> direct call from opt_sum_query (optimization phase). # Uses c3_idx for COUNT(*) from end_send_count (execution phase). let query5= SELECT MIN(c3), COUNT(*) FROM t_innodb; eval EXPLAIN $query1; eval EXPLAIN $query2; eval EXPLAIN $query3; eval EXPLAIN $query4; eval EXPLAIN $query5; FLUSH STATUS; eval $query1; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query2; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query3; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query4; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query5; SHOW STATUS LIKE 'Handler_%'; # This WL should affect a table with no primary key only to the extent that # call to records happens in execution phase now. CREATE TABLE t_nopk(c1 INT NOT NULL , c2 INT NOT NULL)ENGINE=INNODB; INSERT INTO t_nopk SELECT c1, c2 FROM t_innodb; SHOW CREATE TABLE t_nopk; let query6= SELECT COUNT(*) FROM t_nopk; eval EXPLAIN $query6; FLUSH STATUS; eval $query6; SHOW STATUS LIKE 'Handler_%'; # Add a secondary index and notice the difference in the plan. CREATE INDEX c2_idx on t_nopk(c2); SHOW CREATE TABLE t_nopk; eval EXPLAIN $query6; FLUSH STATUS; eval $query6; SHOW STATUS LIKE 'Handler_%'; DROP TABLE t_nopk; # Set of tests to check if records / records_from_index are called correctly. CREATE TABLE t_innodb_nopk_sk(c1 INT NOT NULL, c2 INT NOT NULL, KEY c2_idx(c2))ENGINE=INNODB; CREATE TABLE t_innodb_pk_nosk(c1 INT NOT NULL PRIMARY KEY, c2 INT NOT NULL)ENGINE=INNODB; CREATE TABLE t_innodb_nopk_nosk(c1 INT NOT NULL, c2 INT NOT NULL)ENGINE=INNODB; INSERT INTO t_innodb_nopk_sk(c1,c2) VALUES (1, 1), (2,2), (3,3); INSERT INTO t_innodb_pk_nosk(c1,c2) SELECT * FROM t_innodb_nopk_sk; INSERT INTO t_innodb_nopk_nosk(c1,c2) SELECT * FROM t_innodb_nopk_sk; ANALYZE TABLE t_innodb_nopk_sk, t_innodb_pk_nosk, t_innodb_nopk_nosk; #Uses handler::records_from_index. Cheaper to use secondary index. let query7= SELECT COUNT(*) FROM t_innodb_nopk_sk; #Uses ha_innobase::records. Count returned with a single handler call. let query8= SELECT COUNT(*) FROM t_innodb_pk_nosk; #Also uses ha_innobase::records. let query9= SELECT COUNT(*) FROM t_innodb_nopk_nosk; eval EXPLAIN $query7; eval EXPLAIN $query8; eval EXPLAIN $query9; #under the current circumstances: non-zero value in Handler_read_next means # handler::records_from_index() is called. zero value in Handler_read_next # means ha_innobase::records() is called. FLUSH STATUS; eval $query7; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query8; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query9; SHOW STATUS LIKE 'Handler_%'; DROP TABLE t_innodb_pk_nosk, t_innodb_nopk_sk, t_innodb_nopk_nosk; #Other SEs CREATE TABLE t_heap(c1 INT NOT NULL PRIMARY KEY, c2 INT NOT NULL, c3 char(20)) ENGINE=HEAP; CREATE TABLE t_archive(c1 INT NOT NULL, c2 char(20)) ENGINE=ARCHIVE; INSERT INTO t_heap SELECT * FROM t_innodb WHERE c1 > 1; INSERT INTO t_archive SELECT c1, c3 FROM t_innodb WHERE c1 > 1; let query10= SELECT COUNT(*) FROM t_heap; let query11= SELECT COUNT(*) FROM t_innodb, t_heap; let query12= SELECT COUNT(*) FROM t_archive; let query13= SELECT COUNT(*) FROM t_innodb, t_archive; eval EXPLAIN $query10; eval EXPLAIN $query11; eval EXPLAIN $query12; eval EXPLAIN $query13; FLUSH STATUS; eval $query10; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query11; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query12; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query13; SHOW STATUS LIKE 'Handler_%'; DROP TABLE t_archive, t_heap; #FORCE INDEX # ha_records is called from execution phase. let query14= SELECT COUNT(*) FROM t_innodb FORCE INDEX(c3_idx); # Tables aren't optimized away here because of force index. let query15= SELECT COUNT(*) FROM t_myisam FORCE INDEX(c3_idx); eval EXPLAIN $query14; eval EXPLAIN $query15; FLUSH STATUS; eval $query14; SHOW STATUS LIKE 'Handler_%'; FLUSH STATUS; eval $query15; SHOW STATUS LIKE 'Handler_%'; #Testcase for specific lines of code. # tests opt_sum_query(): tables_filled &= !(...). Without the "&" we access # the temptable SE's temptable::Handler::records SELECT COUNT(*) FROM (SELECT DISTINCT c1 FROM t_myisam) dt, t_myisam; # Tests end_send_count: if (copy_fields(....)) SET @s =1; SELECT @s, COUNT(*) FROM t_innodb; set sql_mode=''; # Test for end_send_count: if (having_is_true(join->having_cond)) SELECT 1 AS c1, (SELECT COUNT(*) FROM t_innodb HAVING c1 > 0) FROM DUAL; SELECT 1 FROM t_innodb HAVING COUNT(*) > 1; SELECT COUNT(*) c FROM t_innodb HAVING c > 1; #empty result. SELECT COUNT(*) c FROM t_innodb HAVING c > 7; # Tests FORMAT=tree printing of COUNT(*). EXPLAIN FORMAT=tree SELECT COUNT(*) c FROM t_innodb HAVING c > 7; EXPLAIN FORMAT=tree SELECT COUNT(*) c FROM t_myisam HAVING c > 7; # Should be empty. SELECT COUNT(*) c FROM t_innodb LIMIT 10 OFFSET 5; set sql_mode=default; # Bug #28056133: Requires a fix in get_exact_record_count to avoid dummy temp # tables. SELECT SQL_BIG_RESULT COUNT(*) FROM t_innodb; SELECT SQL_BIG_RESULT COUNT(*) FROM t_innodb, t_myisam; # Unqualified COUNT(*) (running in the iterator executor) combined with BNL # (running in the pre-iterator executor). # TODO(sgunders): Remove when BNL enters the iterator executor. --sorted_result SELECT /*+ BNL(t2) */ -(t1.c1 + t2.c1) FROM t_innodb t1, t_innodb t2 UNION ALL SELECT COUNT(*) FROM t_innodb; DROP TABLE t_innodb, t_myisam;