1# 2001 September 15 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 file is testing the SELECT statement. 13# 14# $Id: autovacuum.test,v 1.29 2009/04/06 17:50:03 danielk1977 Exp $ 15 16set testdir [file dirname $argv0] 17source $testdir/tester.tcl 18 19# If this build of the library does not support auto-vacuum, omit this 20# whole file. 21ifcapable {!autovacuum || !pragma} { 22 finish_test 23 return 24} 25 26# Return a string $len characters long. The returned string is $char repeated 27# over and over. For example, [make_str abc 8] returns "abcabcab". 28proc make_str {char len} { 29 set str [string repeat $char. $len] 30 return [string range $str 0 [expr $len-1]] 31} 32 33# Return the number of pages in the file test.db by looking at the file system. 34proc file_pages {} { 35 return [expr [file size test.db] / 1024] 36} 37 38#------------------------------------------------------------------------- 39# Test cases autovacuum-1.* work as follows: 40# 41# 1. A table with a single indexed field is created. 42# 2. Approximately 20 rows are inserted into the table. Each row is long 43# enough such that it uses at least 2 overflow pages for both the table 44# and index entry. 45# 3. The rows are deleted in a psuedo-random order. Sometimes only one row 46# is deleted per transaction, sometimes more than one. 47# 4. After each transaction the table data is checked to ensure it is correct 48# and a "PRAGMA integrity_check" is executed. 49# 5. Once all the rows are deleted the file is checked to make sure it 50# consists of exactly 4 pages. 51# 52# Steps 2-5 are repeated for a few different psuedo-random delete patterns 53# (defined by the $delete_orders list). 54set delete_orders [list] 55lappend delete_orders {1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20} 56lappend delete_orders {20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1} 57lappend delete_orders {8 18 2 4 14 11 13 3 10 7 9 5 12 17 19 15 20 6 16 1} 58lappend delete_orders {10 3 11 17 19 20 7 4 13 6 1 14 16 12 9 18 8 15 5 2} 59lappend delete_orders {{1 2 3 4 5 6 7 8 9 10} {11 12 13 14 15 16 17 18 19 20}} 60lappend delete_orders {{19 8 17 15} {16 11 9 14} {18 5 3 1} {13 20 7 2} {6 12}} 61 62# The length of each table entry. 63# set ENTRY_LEN 3500 64set ENTRY_LEN 3500 65 66do_test autovacuum-1.1 { 67 execsql { 68 PRAGMA auto_vacuum = 1; 69 CREATE TABLE av1(a); 70 CREATE INDEX av1_idx ON av1(a); 71 } 72} {} 73 74set tn 0 75foreach delete_order $delete_orders { 76 incr tn 77 78 # Set up the table. 79 set ::tbl_data [list] 80 foreach i [lsort -integer [eval concat $delete_order]] { 81 execsql "INSERT INTO av1 (oid, a) VALUES($i, '[make_str $i $ENTRY_LEN]')" 82 lappend ::tbl_data [make_str $i $ENTRY_LEN] 83 } 84 85 # Make sure the integrity check passes with the initial data. 86 ifcapable {integrityck} { 87 do_test autovacuum-1.$tn.1 { 88 execsql { 89 pragma integrity_check 90 } 91 } {ok} 92 } 93 94 foreach delete $delete_order { 95 # Delete one set of rows from the table. 96 do_test autovacuum-1.$tn.($delete).1 { 97 execsql " 98 DELETE FROM av1 WHERE oid = [join $delete " OR oid = "] 99 " 100 } {} 101 102 # Do the integrity check. 103 ifcapable {integrityck} { 104 do_test autovacuum-1.$tn.($delete).2 { 105 execsql { 106 pragma integrity_check 107 } 108 } {ok} 109 } 110 # Ensure the data remaining in the table is what was expected. 111 foreach d $delete { 112 set idx [lsearch $::tbl_data [make_str $d $ENTRY_LEN]] 113 set ::tbl_data [lreplace $::tbl_data $idx $idx] 114 } 115 do_test autovacuum-1.$tn.($delete).3 { 116 execsql { 117 select a from av1 order by rowid 118 } 119 } $::tbl_data 120 } 121 122 # All rows have been deleted. Ensure the file has shrunk to 4 pages. 123 do_test autovacuum-1.$tn.3 { 124 file_pages 125 } {4} 126} 127 128#--------------------------------------------------------------------------- 129# Tests cases autovacuum-2.* test that root pages are allocated 130# and deallocated correctly at the start of the file. Operation is roughly as 131# follows: 132# 133# autovacuum-2.1.*: Drop the tables that currently exist in the database. 134# autovacuum-2.2.*: Create some tables. Ensure that data pages can be 135# moved correctly to make space for new root-pages. 136# autovacuum-2.3.*: Drop one of the tables just created (not the last one), 137# and check that one of the other tables is moved to 138# the free root-page location. 139# autovacuum-2.4.*: Check that a table can be created correctly when the 140# root-page it requires is on the free-list. 141# autovacuum-2.5.*: Check that a table with indices can be dropped. This 142# is slightly tricky because dropping one of the 143# indices/table btrees could move the root-page of another. 144# The code-generation layer of SQLite overcomes this problem 145# by dropping the btrees in descending order of root-pages. 146# This test ensures that this actually happens. 147# 148do_test autovacuum-2.1.1 { 149 execsql { 150 DROP TABLE av1; 151 } 152} {} 153do_test autovacuum-2.1.2 { 154 file_pages 155} {1} 156 157# Create a table and put some data in it. 158do_test autovacuum-2.2.1 { 159 execsql { 160 CREATE TABLE av1(x); 161 SELECT rootpage FROM sqlite_master ORDER BY rootpage; 162 } 163} {3} 164do_test autovacuum-2.2.2 { 165 execsql " 166 INSERT INTO av1 VALUES('[make_str abc 3000]'); 167 INSERT INTO av1 VALUES('[make_str def 3000]'); 168 INSERT INTO av1 VALUES('[make_str ghi 3000]'); 169 INSERT INTO av1 VALUES('[make_str jkl 3000]'); 170 " 171 set ::av1_data [db eval {select * from av1}] 172 file_pages 173} {15} 174 175# Create another table. Check it is located immediately after the first. 176# This test case moves the second page in an over-flow chain. 177do_test autovacuum-2.2.3 { 178 execsql { 179 CREATE TABLE av2(x); 180 SELECT rootpage FROM sqlite_master ORDER BY rootpage; 181 } 182} {3 4} 183do_test autovacuum-2.2.4 { 184 file_pages 185} {16} 186 187# Create another table. Check it is located immediately after the second. 188# This test case moves the first page in an over-flow chain. 189do_test autovacuum-2.2.5 { 190 execsql { 191 CREATE TABLE av3(x); 192 SELECT rootpage FROM sqlite_master ORDER BY rootpage; 193 } 194} {3 4 5} 195do_test autovacuum-2.2.6 { 196 file_pages 197} {17} 198 199# Create another table. Check it is located immediately after the second. 200# This test case moves a btree leaf page. 201do_test autovacuum-2.2.7 { 202 execsql { 203 CREATE TABLE av4(x); 204 SELECT rootpage FROM sqlite_master ORDER BY rootpage; 205 } 206} {3 4 5 6} 207do_test autovacuum-2.2.8 { 208 file_pages 209} {18} 210do_test autovacuum-2.2.9 { 211 execsql { 212 select * from av1 213 } 214} $av1_data 215 216do_test autovacuum-2.3.1 { 217 execsql { 218 INSERT INTO av2 SELECT 'av1' || x FROM av1; 219 INSERT INTO av3 SELECT 'av2' || x FROM av1; 220 INSERT INTO av4 SELECT 'av3' || x FROM av1; 221 } 222 set ::av2_data [execsql {select x from av2}] 223 set ::av3_data [execsql {select x from av3}] 224 set ::av4_data [execsql {select x from av4}] 225 file_pages 226} {54} 227do_test autovacuum-2.3.2 { 228 execsql { 229 DROP TABLE av2; 230 SELECT rootpage FROM sqlite_master ORDER BY rootpage; 231 } 232} {3 4 5} 233do_test autovacuum-2.3.3 { 234 file_pages 235} {41} 236do_test autovacuum-2.3.4 { 237 execsql { 238 SELECT x FROM av3; 239 } 240} $::av3_data 241do_test autovacuum-2.3.5 { 242 execsql { 243 SELECT x FROM av4; 244 } 245} $::av4_data 246 247# Drop all the tables in the file. This puts all pages except the first 2 248# (the sqlite_master root-page and the first pointer map page) on the 249# free-list. 250do_test autovacuum-2.4.1 { 251 execsql { 252 DROP TABLE av1; 253 DROP TABLE av3; 254 BEGIN; 255 DROP TABLE av4; 256 } 257 file_pages 258} {15} 259do_test autovacuum-2.4.2 { 260 for {set i 3} {$i<=10} {incr i} { 261 execsql "CREATE TABLE av$i (x)" 262 } 263 file_pages 264} {15} 265do_test autovacuum-2.4.3 { 266 execsql { 267 SELECT rootpage FROM sqlite_master ORDER by rootpage 268 } 269} {3 4 5 6 7 8 9 10} 270 271# Right now there are 5 free pages in the database. Consume and then free 272# all 520 pages. Then create 520 tables. This ensures that at least some of the 273# desired root-pages reside on the second free-list trunk page, and that the 274# trunk itself is required at some point. 275do_test autovacuum-2.4.4 { 276 execsql " 277 INSERT INTO av3 VALUES ('[make_str abcde [expr 1020*520 + 500]]'); 278 DELETE FROM av3; 279 " 280} {} 281set root_page_list [list] 282set pending_byte_page [expr ($::sqlite_pending_byte / 1024) + 1] 283 284# unusable_pages 285# These are either the pending_byte page or the pointer map pages 286# 287unset -nocomplain unusable_page 288if {[sqlite3 -has-codec]} { 289 array set unusable_page {205 1 408 1} 290} else { 291 array set unusable_page {207 1 412 1} 292} 293set unusable_page($pending_byte_page) 1 294 295for {set i 3} {$i<=532} {incr i} { 296 if {![info exists unusable_page($i)]} { 297 lappend root_page_list $i 298 } 299} 300if {$i >= $pending_byte_page} { 301 lappend root_page_list $i 302} 303do_test autovacuum-2.4.5 { 304 for {set i 11} {$i<=530} {incr i} { 305 execsql "CREATE TABLE av$i (x)" 306 } 307 execsql { 308 SELECT rootpage FROM sqlite_master ORDER by rootpage 309 } 310} $root_page_list 311 312# Just for fun, delete all those tables and see if the database is 1 page. 313do_test autovacuum-2.4.6 { 314 execsql COMMIT; 315 file_pages 316} [expr 561 + (($i >= $pending_byte_page)?1:0)] 317integrity_check autovacuum-2.4.6 318do_test autovacuum-2.4.7 { 319 execsql BEGIN 320 for {set i 3} {$i<=530} {incr i} { 321 execsql "DROP TABLE av$i" 322 } 323 execsql COMMIT 324 file_pages 325} 1 326 327# Create some tables with indices to drop. 328do_test autovacuum-2.5.1 { 329 execsql { 330 CREATE TABLE av1(a PRIMARY KEY, b, c); 331 INSERT INTO av1 VALUES('av1 a', 'av1 b', 'av1 c'); 332 333 CREATE TABLE av2(a PRIMARY KEY, b, c); 334 CREATE INDEX av2_i1 ON av2(b); 335 CREATE INDEX av2_i2 ON av2(c); 336 INSERT INTO av2 VALUES('av2 a', 'av2 b', 'av2 c'); 337 338 CREATE TABLE av3(a PRIMARY KEY, b, c); 339 CREATE INDEX av3_i1 ON av3(b); 340 INSERT INTO av3 VALUES('av3 a', 'av3 b', 'av3 c'); 341 342 CREATE TABLE av4(a, b, c); 343 CREATE INDEX av4_i1 ON av4(a); 344 CREATE INDEX av4_i2 ON av4(b); 345 CREATE INDEX av4_i3 ON av4(c); 346 CREATE INDEX av4_i4 ON av4(a, b, c); 347 INSERT INTO av4 VALUES('av4 a', 'av4 b', 'av4 c'); 348 } 349} {} 350 351do_test autovacuum-2.5.2 { 352 execsql { 353 SELECT name, rootpage FROM sqlite_master; 354 } 355} [list av1 3 sqlite_autoindex_av1_1 4 \ 356 av2 5 sqlite_autoindex_av2_1 6 av2_i1 7 av2_i2 8 \ 357 av3 9 sqlite_autoindex_av3_1 10 av3_i1 11 \ 358 av4 12 av4_i1 13 av4_i2 14 av4_i3 15 av4_i4 16 \ 359] 360 361# The following 4 tests are SELECT queries that use the indices created. 362# If the root-pages in the internal schema are not updated correctly when 363# a table or indice is moved, these queries will fail. They are repeated 364# after each table is dropped (i.e. as test cases 2.5.*.[1..4]). 365do_test autovacuum-2.5.2.1 { 366 execsql { 367 SELECT * FROM av1 WHERE a = 'av1 a'; 368 } 369} {{av1 a} {av1 b} {av1 c}} 370do_test autovacuum-2.5.2.2 { 371 execsql { 372 SELECT * FROM av2 WHERE a = 'av2 a' AND b = 'av2 b' AND c = 'av2 c' 373 } 374} {{av2 a} {av2 b} {av2 c}} 375do_test autovacuum-2.5.2.3 { 376 execsql { 377 SELECT * FROM av3 WHERE a = 'av3 a' AND b = 'av3 b'; 378 } 379} {{av3 a} {av3 b} {av3 c}} 380do_test autovacuum-2.5.2.4 { 381 execsql { 382 SELECT * FROM av4 WHERE a = 'av4 a' AND b = 'av4 b' AND c = 'av4 c'; 383 } 384} {{av4 a} {av4 b} {av4 c}} 385 386# Drop table av3. Indices av4_i2, av4_i3 and av4_i4 are moved to fill the two 387# root pages vacated. The operation proceeds as: 388# Step 1: Delete av3_i1 (root-page 11). Move root-page of av4_i4 to page 11. 389# Step 2: Delete av3 (root-page 10). Move root-page of av4_i3 to page 10. 390# Step 3: Delete sqlite_autoindex_av1_3 (root-page 9). Move av4_i2 to page 9. 391do_test autovacuum-2.5.3 { 392 execsql { 393 DROP TABLE av3; 394 SELECT name, rootpage FROM sqlite_master; 395 } 396} [list av1 3 sqlite_autoindex_av1_1 4 \ 397 av2 5 sqlite_autoindex_av2_1 6 av2_i1 7 av2_i2 8 \ 398 av4 12 av4_i1 13 av4_i2 9 av4_i3 10 av4_i4 11 \ 399] 400do_test autovacuum-2.5.3.1 { 401 execsql { 402 SELECT * FROM av1 WHERE a = 'av1 a'; 403 } 404} {{av1 a} {av1 b} {av1 c}} 405do_test autovacuum-2.5.3.2 { 406 execsql { 407 SELECT * FROM av2 WHERE a = 'av2 a' AND b = 'av2 b' AND c = 'av2 c' 408 } 409} {{av2 a} {av2 b} {av2 c}} 410do_test autovacuum-2.5.3.3 { 411 execsql { 412 SELECT * FROM av4 WHERE a = 'av4 a' AND b = 'av4 b' AND c = 'av4 c'; 413 } 414} {{av4 a} {av4 b} {av4 c}} 415 416# Drop table av1: 417# Step 1: Delete av1 (root page 4). Root-page of av4_i1 fills the gap. 418# Step 2: Delete sqlite_autoindex_av1_1 (root page 3). Move av4 to the gap. 419do_test autovacuum-2.5.4 { 420 execsql { 421 DROP TABLE av1; 422 SELECT name, rootpage FROM sqlite_master; 423 } 424} [list av2 5 sqlite_autoindex_av2_1 6 av2_i1 7 av2_i2 8 \ 425 av4 3 av4_i1 4 av4_i2 9 av4_i3 10 av4_i4 11 \ 426] 427do_test autovacuum-2.5.4.2 { 428 execsql { 429 SELECT * FROM av2 WHERE a = 'av2 a' AND b = 'av2 b' AND c = 'av2 c' 430 } 431} {{av2 a} {av2 b} {av2 c}} 432do_test autovacuum-2.5.4.4 { 433 execsql { 434 SELECT * FROM av4 WHERE a = 'av4 a' AND b = 'av4 b' AND c = 'av4 c'; 435 } 436} {{av4 a} {av4 b} {av4 c}} 437 438# Drop table av4: 439# Step 1: Delete av4_i4. 440# Step 2: Delete av4_i3. 441# Step 3: Delete av4_i2. 442# Step 4: Delete av4_i1. av2_i2 replaces it. 443# Step 5: Delete av4. av2_i1 replaces it. 444do_test autovacuum-2.5.5 { 445 execsql { 446 DROP TABLE av4; 447 SELECT name, rootpage FROM sqlite_master; 448 } 449} [list av2 5 sqlite_autoindex_av2_1 6 av2_i1 3 av2_i2 4] 450do_test autovacuum-2.5.5.2 { 451 execsql { 452 SELECT * FROM av2 WHERE a = 'av2 a' AND b = 'av2 b' AND c = 'av2 c' 453 } 454} {{av2 a} {av2 b} {av2 c}} 455 456#-------------------------------------------------------------------------- 457# Test cases autovacuum-3.* test the operation of the "PRAGMA auto_vacuum" 458# command. 459# 460do_test autovacuum-3.1 { 461 execsql { 462 PRAGMA auto_vacuum; 463 } 464} {1} 465do_test autovacuum-3.2 { 466 db close 467 sqlite3 db test.db 468 execsql { 469 PRAGMA auto_vacuum; 470 } 471} {1} 472do_test autovacuum-3.3 { 473 execsql { 474 PRAGMA auto_vacuum = 0; 475 PRAGMA auto_vacuum; 476 } 477} {1} 478 479do_test autovacuum-3.4 { 480 db close 481 forcedelete test.db 482 sqlite3 db test.db 483 execsql { 484 PRAGMA auto_vacuum; 485 } 486} $AUTOVACUUM 487do_test autovacuum-3.5 { 488 execsql { 489 CREATE TABLE av1(x); 490 PRAGMA auto_vacuum; 491 } 492} $AUTOVACUUM 493do_test autovacuum-3.6 { 494 execsql { 495 PRAGMA auto_vacuum = 1; 496 PRAGMA auto_vacuum; 497 } 498} [expr $AUTOVACUUM ? 1 : 0] 499do_test autovacuum-3.7 { 500 execsql { 501 DROP TABLE av1; 502 } 503 file_pages 504} [expr $AUTOVACUUM?1:2] 505 506 507#----------------------------------------------------------------------- 508# Test that if a statement transaction around a CREATE INDEX statement is 509# rolled back no corruption occurs. 510# 511do_test autovacuum-4.0 { 512 # The last round of tests may have left the db in non-autovacuum mode. 513 # Reset everything just in case. 514 # 515 db close 516 forcedelete test.db test.db-journal 517 sqlite3 db test.db 518 execsql { 519 PRAGMA auto_vacuum = 1; 520 PRAGMA auto_vacuum; 521 } 522} {1} 523do_test autovacuum-4.1 { 524 execsql { 525 CREATE TABLE av1(a, b); 526 BEGIN; 527 } 528 for {set i 0} {$i<100} {incr i} { 529 execsql "INSERT INTO av1 VALUES($i, '[string repeat X 200]');" 530 } 531 execsql "INSERT INTO av1 VALUES(99, '[string repeat X 200]');" 532 execsql { 533 SELECT sum(a) FROM av1; 534 } 535} {5049} 536do_test autovacuum-4.2 { 537 catchsql { 538 CREATE UNIQUE INDEX av1_i ON av1(a); 539 } 540} {1 {UNIQUE constraint failed: av1.a}} 541do_test autovacuum-4.3 { 542 execsql { 543 SELECT sum(a) FROM av1; 544 } 545} {5049} 546do_test autovacuum-4.4 { 547 execsql { 548 COMMIT; 549 } 550} {} 551 552ifcapable integrityck { 553 554# Ticket #1727 555do_test autovacuum-5.1 { 556 db close 557 sqlite3 db :memory: 558 db eval { 559 PRAGMA auto_vacuum=1; 560 CREATE TABLE t1(a); 561 CREATE TABLE t2(a); 562 DROP TABLE t1; 563 PRAGMA integrity_check; 564 } 565} ok 566 567} 568 569# Ticket #1728. 570# 571# In autovacuum mode, when tables or indices are deleted, the rootpage 572# values in the symbol table have to be updated. There was a bug in this 573# logic so that if an index/table was moved twice, the second move might 574# not occur. This would leave the internal symbol table in an inconsistent 575# state causing subsequent statements to fail. 576# 577# The problem is difficult to reproduce. The sequence of statements in 578# the following test are carefully designed make it occur and thus to 579# verify that this very obscure bug has been resolved. 580# 581ifcapable integrityck&&memorydb { 582 583do_test autovacuum-6.1 { 584 db close 585 sqlite3 db :memory: 586 db eval { 587 PRAGMA auto_vacuum=1; 588 CREATE TABLE t1(a, b); 589 CREATE INDEX i1 ON t1(a); 590 CREATE TABLE t2(a); 591 CREATE INDEX i2 ON t2(a); 592 CREATE TABLE t3(a); 593 CREATE INDEX i3 ON t2(a); 594 CREATE INDEX x ON t1(b); 595 DROP TABLE t3; 596 PRAGMA integrity_check; 597 DROP TABLE t2; 598 PRAGMA integrity_check; 599 DROP TABLE t1; 600 PRAGMA integrity_check; 601 } 602} {ok ok ok} 603 604} 605 606#--------------------------------------------------------------------- 607# Test cases autovacuum-7.X test the case where a page must be moved 608# and the destination location collides with at least one other 609# entry in the page hash-table (internal to the pager.c module. 610# 611do_test autovacuum-7.1 { 612 db close 613 forcedelete test.db 614 forcedelete test.db-journal 615 sqlite3 db test.db 616 617 execsql { 618 PRAGMA auto_vacuum=1; 619 CREATE TABLE t1(a, b, PRIMARY KEY(a, b)); 620 INSERT INTO t1 VALUES(randstr(400,400),randstr(400,400)); 621 INSERT INTO t1 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 2 622 INSERT INTO t1 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 4 623 INSERT INTO t1 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 8 624 INSERT INTO t1 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 16 625 INSERT INTO t1 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 32 626 } 627 628 expr {[file size test.db] / 1024} 629} {73} 630 631do_test autovacuum-7.2 { 632 execsql { 633 CREATE TABLE t2(a, b, PRIMARY KEY(a, b)); 634 INSERT INTO t2 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 2 635 CREATE TABLE t3(a, b, PRIMARY KEY(a, b)); 636 INSERT INTO t3 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 2 637 CREATE TABLE t4(a, b, PRIMARY KEY(a, b)); 638 INSERT INTO t4 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 2 639 CREATE TABLE t5(a, b, PRIMARY KEY(a, b)); 640 INSERT INTO t5 SELECT randstr(400,400), randstr(400,400) FROM t1; -- 2 641 } 642 expr {[file size test.db] / 1024} 643} {354} 644 645do_test autovacuum-7.3 { 646 db close 647 sqlite3 db test.db 648 execsql { 649 BEGIN; 650 DELETE FROM t4; 651 COMMIT; 652 SELECT count(*) FROM t1; 653 } 654 expr {[file size test.db] / 1024} 655} {286} 656 657#------------------------------------------------------------------------ 658# Additional tests. 659# 660# Try to determine the autovacuum setting for a database that is locked. 661# 662do_test autovacuum-8.1 { 663 db close 664 sqlite3 db test.db 665 sqlite3 db2 test.db 666 db eval {PRAGMA auto_vacuum} 667} {1} 668if {[permutation] == ""} { 669 do_test autovacuum-8.2 { 670 db eval {BEGIN EXCLUSIVE} 671 catchsql {PRAGMA auto_vacuum} db2 672 } {1 {database is locked}} 673 catch {db2 close} 674 catch {db eval {COMMIT}} 675} 676 677do_test autovacuum-9.1 { 678 execsql { 679 DROP TABLE t1; 680 DROP TABLE t2; 681 DROP TABLE t3; 682 DROP TABLE t4; 683 DROP TABLE t5; 684 PRAGMA page_count; 685 } 686} {1} 687do_test autovacuum-9.2 { 688 file size test.db 689} 1024 690do_test autovacuum-9.3 { 691 execsql { 692 CREATE TABLE t1(a INTEGER PRIMARY KEY, b); 693 INSERT INTO t1 VALUES(NULL, randstr(50,50)); 694 } 695 for {set ii 0} {$ii < 10} {incr ii} { 696 db eval { INSERT INTO t1 SELECT NULL, randstr(50,50) FROM t1 } 697 } 698 file size test.db 699} $::sqlite_pending_byte 700do_test autovacuum-9.4 { 701 execsql { INSERT INTO t1 SELECT NULL, randstr(50,50) FROM t1 } 702} {} 703do_test autovacuum-9.5 { 704 execsql { DELETE FROM t1 WHERE rowid > (SELECT max(a)/2 FROM t1) } 705 file size test.db 706} $::sqlite_pending_byte 707 708 709finish_test 710