wasCSharpSQLite – Blame information for rev 1

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1 office 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 1.17 2009/01/09 01:12:28 drh Exp $
15 #
16  
17 set testdir [file dirname $argv0]
18 source $testdir/tester.tcl
19  
20 ifcapable !subquery {
21 finish_test
22 return
23 }
24  
25 do_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}
44 do_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  
51 do_test subquery-1.3 {
52 execsql {
53 SELECT b FROM t1 WHERE EXISTS(SELECT * FROM t2 WHERE y=a)
54 }
55 } {3}
56 do_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.
64 do_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}
69 do_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}
75 do_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.
82 do_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.
89 do_test subquery-1.9.1 {
90 execsql {
91 SELECT (y*2)>b FROM t1, t2 WHERE a=x;
92 }
93 } {0 1 1 1}
94 do_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.
101 do_test subquery-1.10.1 {
102 execsql {
103 SELECT (SELECT a), b FROM t1;
104 }
105 } {1 3 3 13 5 31 7 57}
106 do_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}
111 do_test subquery-1.10.3 {
112 execsql {
113 SELECT * FROM (SELECT (SELECT sum(a) FROM t1));
114 }
115 } {16}
116 do_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 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}
138 do_test subquery-1.10.5 {
139 execsql {
140 SELECT 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}
147 do_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 #
160 do_test subquery-2.1 {
161 execsql {
162 SELECT (SELECT 10);
163 }
164 } {10}
165 do_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 } {}
172 do_test subquery-2.2.2 {
173 execsql {
174 SELECT * FROM t3 WHERE a IN (SELECT b FROM t3);
175 }
176 } {1 2}
177 do_test subquery-2.2.3 {
178 execsql {
179 DROP TABLE t3;
180 }
181 } {}
182 do_test subquery-2.3.1 {
183 execsql {
184 CREATE TABLE t3(a TEXT);
185 INSERT INTO t3 VALUES('10');
186 }
187 } {}
188 do_test subquery-2.3.2 {
189 execsql {
190 SELECT a IN (10.0, 20) FROM t3;
191 }
192 } {0}
193 do_test subquery-2.3.3 {
194 execsql {
195 DROP TABLE t3;
196 }
197 } {}
198 do_test subquery-2.4.1 {
199 execsql {
200 CREATE TABLE t3(a TEXT);
201 INSERT INTO t3 VALUES('XX');
202 }
203 } {}
204 do_test subquery-2.4.2 {
205 execsql {
206 SELECT count(*) FROM t3 WHERE a IN (SELECT 'XX')
207 }
208 } {1}
209 do_test subquery-2.4.3 {
210 execsql {
211 DROP TABLE t3;
212 }
213 } {}
214 do_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 } {}
223 do_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}
234 do_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}
242 do_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 {}}
246 do_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
259 ifcapable 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 do_test subquery-3.1.1 {
273 execsql {
274 SELECT * FROM v1 WHERE EXISTS(SELECT 1);
275 }
276 } {2}
277 } else {
278 catchsql { DROP TABLE t1; }
279 catchsql { DROP TABLE t2; }
280 execsql {
281 CREATE TABLE t1(a,b);
282 INSERT INTO t1 VALUES(1,2);
283 CREATE TABLE t2(p,q);
284 INSERT INTO t2 VALUES(2,9);
285 }
286 }
287  
288 # Ticket 1084
289 do_test subquery-3.2 {
290 catchsql {
291 CREATE TABLE t1(a,b);
292 INSERT INTO t1 VALUES(1,2);
293 }
294 execsql {
295 SELECT (SELECT t1.a) FROM t1;
296 }
297 } {1}
298  
299 # Test Cases subquery-3.3.* test correlated subqueries where the
300 # parent query is an aggregate query. Ticket #1105 is an example
301 # of such a query.
302 #
303 do_test subquery-3.3.1 {
304 execsql {
305 SELECT a, (SELECT b) FROM t1 GROUP BY a;
306 }
307 } {1 2}
308 do_test subquery-3.3.2 {
309 catchsql {DROP TABLE t2}
310 execsql {
311 CREATE TABLE t2(c, d);
312 INSERT INTO t2 VALUES(1, 'one');
313 INSERT INTO t2 VALUES(2, 'two');
314 SELECT a, (SELECT d FROM t2 WHERE a=c) FROM t1 GROUP BY a;
315 }
316 } {1 one}
317 do_test subquery-3.3.3 {
318 execsql {
319 INSERT INTO t1 VALUES(2, 4);
320 SELECT max(a), (SELECT d FROM t2 WHERE a=c) FROM t1;
321 }
322 } {2 two}
323 do_test subquery-3.3.4 {
324 execsql {
325 SELECT a, (SELECT (SELECT d FROM t2 WHERE a=c)) FROM t1 GROUP BY a;
326 }
327 } {1 one 2 two}
328 do_test subquery-3.3.5 {
329 execsql {
330 SELECT a, (SELECT count(*) FROM t2 WHERE a=c) FROM t1;
331 }
332 } {1 1 2 1}
333  
334 #------------------------------------------------------------------
335 # These tests - subquery-4.* - use the TCL statement cache to try
336 # and expose bugs to do with re-using statements that have been
337 # passed to sqlite3_reset().
338 #
339 # One problem was that VDBE memory cells were not being initialised
340 # to NULL on the second and subsequent executions.
341 #
342 do_test subquery-4.1.1 {
343 execsql {
344 SELECT (SELECT a FROM t1);
345 }
346 } {1}
347 do_test subquery-4.2 {
348 execsql {
349 DELETE FROM t1;
350 SELECT (SELECT a FROM t1);
351 }
352 } {{}}
353 do_test subquery-4.2.1 {
354 execsql {
355 CREATE TABLE t3(a PRIMARY KEY);
356 INSERT INTO t3 VALUES(10);
357 }
358 execsql {INSERT INTO t3 VALUES((SELECT max(a) FROM t3)+1)}
359 } {}
360 do_test subquery-4.2.2 {
361 execsql {INSERT INTO t3 VALUES((SELECT max(a) FROM t3)+1)}
362 } {}
363  
364 #------------------------------------------------------------------
365 # The subquery-5.* tests make sure string literals in double-quotes
366 # are handled efficiently. Double-quote literals are first checked
367 # to see if they match any column names. If there is not column name
368 # match then those literals are used a string constants. When a
369 # double-quoted string appears, we want to make sure that the search
370 # for a matching column name did not cause an otherwise static subquery
371 # to become a dynamic (correlated) subquery.
372 #
373 do_test subquery-5.1 {
374 proc callcntproc {n} {
375 incr ::callcnt
376 return $n
377 }
378 set callcnt 0
379 db function callcnt callcntproc
380 execsql {
381 CREATE TABLE t4(x,y);
382 INSERT INTO t4 VALUES('one',1);
383 INSERT INTO t4 VALUES('two',2);
384 INSERT INTO t4 VALUES('three',3);
385 INSERT INTO t4 VALUES('four',4);
386 CREATE TABLE t5(a,b);
387 INSERT INTO t5 VALUES(1,11);
388 INSERT INTO t5 VALUES(2,22);
389 INSERT INTO t5 VALUES(3,33);
390 INSERT INTO t5 VALUES(4,44);
391 SELECT b FROM t5 WHERE a IN
392 (SELECT callcnt(y)+0 FROM t4 WHERE x="two")
393 }
394 } {22}
395 do_test subquery-5.2 {
396 # This is the key test. The subquery should have only run once. If
397 # The double-quoted identifier "two" were causing the subquery to be
398 # processed as a correlated subquery, then it would have run 4 times.
399 set callcnt
400 } {1}
401  
402  
403 # Ticket #1380. Make sure correlated subqueries on an IN clause work
404 # correctly when the left-hand side of the IN operator is constant.
405 #
406 do_test subquery-6.1 {
407 set callcnt 0
408 execsql {
409 SELECT x FROM t4 WHERE 1 IN (SELECT callcnt(count(*)) FROM t5 WHERE a=y)
410 }
411 } {one two three four}
412 do_test subquery-6.2 {
413 set callcnt
414 } {4}
415 do_test subquery-6.3 {
416 set callcnt 0
417 execsql {
418 SELECT x FROM t4 WHERE 1 IN (SELECT callcnt(count(*)) FROM t5 WHERE a=1)
419 }
420 } {one two three four}
421 do_test subquery-6.4 {
422 set callcnt
423 } {1}
424  
425 if 0 { ############# disable until we get #2652 fixed
426 # Ticket #2652. Allow aggregate functions of outer queries inside
427 # a non-aggregate subquery.
428 #
429 do_test subquery-7.1 {
430 execsql {
431 CREATE TABLE t7(c7);
432 INSERT INTO t7 VALUES(1);
433 INSERT INTO t7 VALUES(2);
434 INSERT INTO t7 VALUES(3);
435 CREATE TABLE t8(c8);
436 INSERT INTO t8 VALUES(100);
437 INSERT INTO t8 VALUES(200);
438 INSERT INTO t8 VALUES(300);
439 CREATE TABLE t9(c9);
440 INSERT INTO t9 VALUES(10000);
441 INSERT INTO t9 VALUES(20000);
442 INSERT INTO t9 VALUES(30000);
443  
444 SELECT (SELECT c7+c8 FROM t7) FROM t8;
445 }
446 } {101 201 301}
447 do_test subquery-7.2 {
448 execsql {
449 SELECT (SELECT max(c7)+c8 FROM t7) FROM t8;
450 }
451 } {103 203 303}
452 do_test subquery-7.3 {
453 execsql {
454 SELECT (SELECT c7+max(c8) FROM t8) FROM t7
455 }
456 } {301}
457 do_test subquery-7.4 {
458 execsql {
459 SELECT (SELECT max(c7)+max(c8) FROM t8) FROM t7
460 }
461 } {303}
462 do_test subquery-7.5 {
463 execsql {
464 SELECT (SELECT c8 FROM t8 WHERE rowid=max(c7)) FROM t7
465 }
466 } {300}
467 do_test subquery-7.6 {
468 execsql {
469 SELECT (SELECT (SELECT max(c7+c8+c9) FROM t9) FROM t8) FROM t7
470 }
471 } {30101 30102 30103}
472 do_test subquery-7.7 {
473 execsql {
474 SELECT (SELECT (SELECT c7+max(c8+c9) FROM t9) FROM t8) FROM t7
475 }
476 } {30101 30102 30103}
477 do_test subquery-7.8 {
478 execsql {
479 SELECT (SELECT (SELECT max(c7)+c8+c9 FROM t9) FROM t8) FROM t7
480 }
481 } {10103}
482 do_test subquery-7.9 {
483 execsql {
484 SELECT (SELECT (SELECT c7+max(c8)+c9 FROM t9) FROM t8) FROM t7
485 }
486 } {10301 10302 10303}
487 do_test subquery-7.10 {
488 execsql {
489 SELECT (SELECT (SELECT c7+c8+max(c9) FROM t9) FROM t8) FROM t7
490 }
491 } {30101 30102 30103}
492 do_test subquery-7.11 {
493 execsql {
494 SELECT (SELECT (SELECT max(c7)+max(c8)+max(c9) FROM t9) FROM t8) FROM t7
495 }
496 } {30303}
497 } ;############# Disabled
498  
499 finish_test