1# 2005 January 19 2# 3# The author disclaims copyright to this source code. In place of 4# a legal notice, here is a blessing: 5# 6# May you do good and not evil. 7# May you find forgiveness for yourself and forgive others. 8# May you share freely, never taking more than you give. 9# 10#************************************************************************* 11# This file implements regression tests for SQLite library. The 12# focus of this script is testing correlated subqueries 13# 14# $Id: subquery.test,v 1.14 2006/01/17 09:35:02 danielk1977 Exp $ 15# 16 17set testdir [file dirname $argv0] 18source $testdir/tester.tcl 19 20ifcapable !subquery { 21 finish_test 22 return 23} 24 25do_test subquery-1.1 { 26 execsql { 27 BEGIN; 28 CREATE TABLE t1(a,b); 29 INSERT INTO t1 VALUES(1,2); 30 INSERT INTO t1 VALUES(3,4); 31 INSERT INTO t1 VALUES(5,6); 32 INSERT INTO t1 VALUES(7,8); 33 CREATE TABLE t2(x,y); 34 INSERT INTO t2 VALUES(1,1); 35 INSERT INTO t2 VALUES(3,9); 36 INSERT INTO t2 VALUES(5,25); 37 INSERT INTO t2 VALUES(7,49); 38 COMMIT; 39 } 40 execsql { 41 SELECT a, (SELECT y FROM t2 WHERE x=a) FROM t1 WHERE b<8 42 } 43} {1 1 3 9 5 25} 44do_test subquery-1.2 { 45 execsql { 46 UPDATE t1 SET b=b+(SELECT y FROM t2 WHERE x=a); 47 SELECT * FROM t1; 48 } 49} {1 3 3 13 5 31 7 57} 50 51do_test subquery-1.3 { 52 execsql { 53 SELECT b FROM t1 WHERE EXISTS(SELECT * FROM t2 WHERE y=a) 54 } 55} {3} 56do_test subquery-1.4 { 57 execsql { 58 SELECT b FROM t1 WHERE NOT EXISTS(SELECT * FROM t2 WHERE y=a) 59 } 60} {13 31 57} 61 62# Simple tests to make sure correlated subqueries in WHERE clauses 63# are used by the query optimizer correctly. 64do_test subquery-1.5 { 65 execsql { 66 SELECT a, x FROM t1, t2 WHERE t1.a = (SELECT x); 67 } 68} {1 1 3 3 5 5 7 7} 69do_test subquery-1.6 { 70 execsql { 71 CREATE INDEX i1 ON t1(a); 72 SELECT a, x FROM t1, t2 WHERE t1.a = (SELECT x); 73 } 74} {1 1 3 3 5 5 7 7} 75do_test subquery-1.7 { 76 execsql { 77 SELECT a, x FROM t2, t1 WHERE t1.a = (SELECT x); 78 } 79} {1 1 3 3 5 5 7 7} 80 81# Try an aggregate in both the subquery and the parent query. 82do_test subquery-1.8 { 83 execsql { 84 SELECT count(*) FROM t1 WHERE a > (SELECT count(*) FROM t2); 85 } 86} {2} 87 88# Test a correlated subquery disables the "only open the index" optimization. 89do_test subquery-1.9.1 { 90 execsql { 91 SELECT (y*2)>b FROM t1, t2 WHERE a=x; 92 } 93} {0 1 1 1} 94do_test subquery-1.9.2 { 95 execsql { 96 SELECT a FROM t1 WHERE (SELECT (y*2)>b FROM t2 WHERE a=x); 97 } 98} {3 5 7} 99 100# Test that the flattening optimization works with subquery expressions. 101do_test subquery-1.10.1 { 102 execsql { 103 SELECT (SELECT a), b FROM t1; 104 } 105} {1 3 3 13 5 31 7 57} 106do_test subquery-1.10.2 { 107 execsql { 108 SELECT * FROM (SELECT (SELECT a), b FROM t1); 109 } 110} {1 3 3 13 5 31 7 57} 111do_test subquery-1.10.3 { 112 execsql { 113 SELECT * FROM (SELECT (SELECT sum(a) FROM t1)); 114 } 115} {16} 116do_test subquery-1.10.4 { 117 execsql { 118 CREATE TABLE t5 (val int, period text PRIMARY KEY); 119 INSERT INTO t5 VALUES(5, '2001-3'); 120 INSERT INTO t5 VALUES(10, '2001-4'); 121 INSERT INTO t5 VALUES(15, '2002-1'); 122 INSERT INTO t5 VALUES(5, '2002-2'); 123 INSERT INTO t5 VALUES(10, '2002-3'); 124 INSERT INTO t5 VALUES(15, '2002-4'); 125 INSERT INTO t5 VALUES(10, '2003-1'); 126 INSERT INTO t5 VALUES(5, '2003-2'); 127 INSERT INTO t5 VALUES(25, '2003-3'); 128 INSERT INTO t5 VALUES(5, '2003-4'); 129 130 SELECT "a.period", vsum 131 FROM (SELECT 132 a.period, 133 (select sum(val) from t5 where period between a.period and '2002-4') vsum 134 FROM t5 a where a.period between '2002-1' and '2002-4') 135 WHERE vsum < 45 ; 136 } 137} {2002-2 30 2002-3 25 2002-4 15} 138do_test subquery-1.10.5 { 139 execsql { 140 SELECT "a.period", vsum from 141 (select a.period, 142 (select sum(val) from t5 where period between a.period and '2002-4') vsum 143 FROM t5 a where a.period between '2002-1' and '2002-4') 144 WHERE vsum < 45 ; 145 } 146} {2002-2 30 2002-3 25 2002-4 15} 147do_test subquery-1.10.6 { 148 execsql { 149 DROP TABLE t5; 150 } 151} {} 152 153 154 155#------------------------------------------------------------------ 156# The following test cases - subquery-2.* - are not logically 157# organized. They're here largely because they were failing during 158# one stage of development of sub-queries. 159# 160do_test subquery-2.1 { 161 execsql { 162 SELECT (SELECT 10); 163 } 164} {10} 165do_test subquery-2.2.1 { 166 execsql { 167 CREATE TABLE t3(a PRIMARY KEY, b); 168 INSERT INTO t3 VALUES(1, 2); 169 INSERT INTO t3 VALUES(3, 1); 170 } 171} {} 172do_test subquery-2.2.2 { 173 execsql { 174 SELECT * FROM t3 WHERE a IN (SELECT b FROM t3); 175 } 176} {1 2} 177do_test subquery-2.2.3 { 178 execsql { 179 DROP TABLE t3; 180 } 181} {} 182do_test subquery-2.3.1 { 183 execsql { 184 CREATE TABLE t3(a TEXT); 185 INSERT INTO t3 VALUES('10'); 186 } 187} {} 188do_test subquery-2.3.2 { 189 execsql { 190 SELECT a IN (10.0, 20) FROM t3; 191 } 192} {0} 193do_test subquery-2.3.3 { 194 execsql { 195 DROP TABLE t3; 196 } 197} {} 198do_test subquery-2.4.1 { 199 execsql { 200 CREATE TABLE t3(a TEXT); 201 INSERT INTO t3 VALUES('XX'); 202 } 203} {} 204do_test subquery-2.4.2 { 205 execsql { 206 SELECT count(*) FROM t3 WHERE a IN (SELECT 'XX') 207 } 208} {1} 209do_test subquery-2.4.3 { 210 execsql { 211 DROP TABLE t3; 212 } 213} {} 214do_test subquery-2.5.1 { 215 execsql { 216 CREATE TABLE t3(a INTEGER); 217 INSERT INTO t3 VALUES(10); 218 219 CREATE TABLE t4(x TEXT); 220 INSERT INTO t4 VALUES('10.0'); 221 } 222} {} 223do_test subquery-2.5.2 { 224 # In the expr "x IN (SELECT a FROM t3)" the RHS of the IN operator 225 # has text affinity and the LHS has integer affinity. The rule is 226 # that we try to convert both sides to an integer before doing the 227 # comparision. Hence, the integer value 10 in t3 will compare equal 228 # to the string value '10.0' in t4 because the t4 value will be 229 # converted into an integer. 230 execsql { 231 SELECT * FROM t4 WHERE x IN (SELECT a FROM t3); 232 } 233} {10.0} 234do_test subquery-2.5.3.1 { 235 # The t4i index cannot be used to resolve the "x IN (...)" constraint 236 # because the constraint has integer affinity but t4i has text affinity. 237 execsql { 238 CREATE INDEX t4i ON t4(x); 239 SELECT * FROM t4 WHERE x IN (SELECT a FROM t3); 240 } 241} {10.0} 242do_test subquery-2.5.3.2 { 243 # Verify that the t4i index was not used in the previous query 244 set ::sqlite_query_plan 245} {t4 {}} 246do_test subquery-2.5.4 { 247 execsql { 248 DROP TABLE t3; 249 DROP TABLE t4; 250 } 251} {} 252 253#------------------------------------------------------------------ 254# The following test cases - subquery-3.* - test tickets that 255# were raised during development of correlated subqueries. 256# 257 258# Ticket 1083 259ifcapable view { 260 do_test subquery-3.1 { 261 catchsql { DROP TABLE t1; } 262 catchsql { DROP TABLE t2; } 263 execsql { 264 CREATE TABLE t1(a,b); 265 INSERT INTO t1 VALUES(1,2); 266 CREATE VIEW v1 AS SELECT b FROM t1 WHERE a>0; 267 CREATE TABLE t2(p,q); 268 INSERT INTO t2 VALUES(2,9); 269 SELECT * FROM v1 WHERE EXISTS(SELECT * FROM t2 WHERE p=v1.b); 270 } 271 } {2} 272} else { 273 catchsql { DROP TABLE t1; } 274 catchsql { DROP TABLE t2; } 275 execsql { 276 CREATE TABLE t1(a,b); 277 INSERT INTO t1 VALUES(1,2); 278 CREATE TABLE t2(p,q); 279 INSERT INTO t2 VALUES(2,9); 280 } 281} 282 283# Ticket 1084 284do_test subquery-3.2 { 285 catchsql { 286 CREATE TABLE t1(a,b); 287 INSERT INTO t1 VALUES(1,2); 288 } 289 execsql { 290 SELECT (SELECT t1.a) FROM t1; 291 } 292} {1} 293 294# Test Cases subquery-3.3.* test correlated subqueries where the 295# parent query is an aggregate query. Ticket #1105 is an example 296# of such a query. 297# 298do_test subquery-3.3.1 { 299 execsql { 300 SELECT a, (SELECT b) FROM t1 GROUP BY a; 301 } 302} {1 2} 303do_test subquery-3.3.2 { 304 catchsql {DROP TABLE t2} 305 execsql { 306 CREATE TABLE t2(c, d); 307 INSERT INTO t2 VALUES(1, 'one'); 308 INSERT INTO t2 VALUES(2, 'two'); 309 SELECT a, (SELECT d FROM t2 WHERE a=c) FROM t1 GROUP BY a; 310 } 311} {1 one} 312do_test subquery-3.3.3 { 313 execsql { 314 INSERT INTO t1 VALUES(2, 4); 315 SELECT max(a), (SELECT d FROM t2 WHERE a=c) FROM t1; 316 } 317} {2 two} 318do_test subquery-3.3.4 { 319 execsql { 320 SELECT a, (SELECT (SELECT d FROM t2 WHERE a=c)) FROM t1 GROUP BY a; 321 } 322} {1 one 2 two} 323do_test subquery-3.3.5 { 324 execsql { 325 SELECT a, (SELECT count(*) FROM t2 WHERE a=c) FROM t1; 326 } 327} {1 1 2 1} 328 329#------------------------------------------------------------------ 330# These tests - subquery-4.* - use the TCL statement cache to try 331# and expose bugs to do with re-using statements that have been 332# passed to sqlite3_reset(). 333# 334# One problem was that VDBE memory cells were not being initialised 335# to NULL on the second and subsequent executions. 336# 337do_test subquery-4.1.1 { 338 execsql { 339 SELECT (SELECT a FROM t1); 340 } 341} {1} 342do_test subquery-4.2 { 343 execsql { 344 DELETE FROM t1; 345 SELECT (SELECT a FROM t1); 346 } 347} {{}} 348do_test subquery-4.2.1 { 349 execsql { 350 CREATE TABLE t3(a PRIMARY KEY); 351 INSERT INTO t3 VALUES(10); 352 } 353 execsql {INSERT INTO t3 VALUES((SELECT max(a) FROM t3)+1)} 354} {} 355do_test subquery-4.2.2 { 356 execsql {INSERT INTO t3 VALUES((SELECT max(a) FROM t3)+1)} 357} {} 358 359#------------------------------------------------------------------ 360# The subquery-5.* tests make sure string literals in double-quotes 361# are handled efficiently. Double-quote literals are first checked 362# to see if they match any column names. If there is not column name 363# match then those literals are used a string constants. When a 364# double-quoted string appears, we want to make sure that the search 365# for a matching column name did not cause an otherwise static subquery 366# to become a dynamic (correlated) subquery. 367# 368do_test subquery-5.1 { 369 proc callcntproc {n} { 370 incr ::callcnt 371 return $n 372 } 373 set callcnt 0 374 db function callcnt callcntproc 375 execsql { 376 CREATE TABLE t4(x,y); 377 INSERT INTO t4 VALUES('one',1); 378 INSERT INTO t4 VALUES('two',2); 379 INSERT INTO t4 VALUES('three',3); 380 INSERT INTO t4 VALUES('four',4); 381 CREATE TABLE t5(a,b); 382 INSERT INTO t5 VALUES(1,11); 383 INSERT INTO t5 VALUES(2,22); 384 INSERT INTO t5 VALUES(3,33); 385 INSERT INTO t5 VALUES(4,44); 386 SELECT b FROM t5 WHERE a IN 387 (SELECT callcnt(y)+0 FROM t4 WHERE x="two") 388 } 389} {22} 390do_test subquery-5.2 { 391 # This is the key test. The subquery should have only run once. If 392 # The double-quoted identifier "two" were causing the subquery to be 393 # processed as a correlated subquery, then it would have run 4 times. 394 set callcnt 395} {1} 396 397 398# Ticket #1380. Make sure correlated subqueries on an IN clause work 399# correctly when the left-hand side of the IN operator is constant. 400# 401do_test subquery-6.1 { 402 set callcnt 0 403 execsql { 404 SELECT x FROM t4 WHERE 1 IN (SELECT callcnt(count(*)) FROM t5 WHERE a=y) 405 } 406} {one two three four} 407do_test subquery-6.2 { 408 set callcnt 409} {4} 410do_test subquery-6.3 { 411 set callcnt 0 412 execsql { 413 SELECT x FROM t4 WHERE 1 IN (SELECT callcnt(count(*)) FROM t5 WHERE a=1) 414 } 415} {one two three four} 416do_test subquery-6.4 { 417 set callcnt 418} {1} 419 420 421 422 423 424finish_test 425