3975974780
FossilOrigin-Name: 213020769f310aec1591d97756b53891d0b64005
304 lines
9.8 KiB
Plaintext
304 lines
9.8 KiB
Plaintext
# 2010 September 24
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#***********************************************************************
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#
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# This file implements tests to verify that the "testable statements" in
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# the lang_vacuum.html document are correct.
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#
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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sqlite3_test_control_pending_byte 0x1000000
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proc create_db {{sql ""}} {
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catch { db close }
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forcedelete test.db
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sqlite3 db test.db
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db transaction {
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execsql { PRAGMA page_size = 1024; }
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execsql $sql
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execsql {
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CREATE TABLE t1(a PRIMARY KEY, b UNIQUE);
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INSERT INTO t1 VALUES(1, randomblob(400));
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INSERT INTO t1 SELECT a+1, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+2, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+4, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+8, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+16, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+32, randomblob(400) FROM t1;
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INSERT INTO t1 SELECT a+64, randomblob(400) FROM t1;
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CREATE TABLE t2(a PRIMARY KEY, b UNIQUE);
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INSERT INTO t2 SELECT * FROM t1;
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}
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}
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return [expr {[file size test.db] / 1024}]
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}
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# This proc returns the number of contiguous blocks of pages that make up
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# the table or index named by the only argument. For example, if the table
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# occupies database pages 3, 4, 8 and 9, then this command returns 2 (there
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# are 2 fragments - one consisting of pages 3 and 4, the other of fragments
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# 8 and 9).
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#
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proc fragment_count {name} {
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execsql { CREATE VIRTUAL TABLE temp.stat USING dbstat }
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set nFrag 1
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db eval {SELECT pageno FROM stat WHERE name = 't1' ORDER BY pageno} {
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if {[info exists prevpageno] && $prevpageno != $pageno-1} {
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incr nFrag
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}
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set prevpageno $pageno
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}
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execsql { DROP TABLE temp.stat }
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set nFrag
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}
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# -- syntax diagram vacuum-stmt
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#
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do_execsql_test e_vacuum-0.1 { VACUUM } {}
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# EVIDENCE-OF: R-51469-36013 Unless SQLite is running in
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# "auto_vacuum=FULL" mode, when a large amount of data is deleted from
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# the database file it leaves behind empty space, or "free" database
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# pages.
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#
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# EVIDENCE-OF: R-60541-63059 Running VACUUM to rebuild the database
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# reclaims this space and reduces the size of the database file.
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#
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foreach {tn avmode sz} {
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1 none 7
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2 full 8
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3 incremental 8
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} {
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set nPage [create_db "PRAGMA auto_vacuum = $avmode"]
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do_execsql_test e_vacuum-1.1.$tn.1 {
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DELETE FROM t1;
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DELETE FROM t2;
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} {}
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if {$avmode == "full"} {
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# This branch tests the "unless ... auto_vacuum=FULL" in the requirement
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# above. If auto_vacuum is set to FULL, then no empty space is left in
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# the database file.
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do_execsql_test e_vacuum-1.1.$tn.2 {PRAGMA freelist_count} 0
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} else {
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set freelist [expr {$nPage - $sz}]
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if {$avmode == "incremental"} {
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# The page size is 1024 bytes. Therefore, assuming the database contains
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# somewhere between 207 and 411 pages (it does), there are 2 pointer-map
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# pages.
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incr freelist -2
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}
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do_execsql_test e_vacuum-1.1.$tn.3 {PRAGMA freelist_count} $freelist
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do_execsql_test e_vacuum-1.1.$tn.4 {VACUUM} {}
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}
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do_test e_vacuum-1.1.$tn.5 { expr {[file size test.db] / 1024} } $sz
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}
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# EVIDENCE-OF: R-50943-18433 Frequent inserts, updates, and deletes can
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# cause the database file to become fragmented - where data for a single
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# table or index is scattered around the database file.
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#
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# EVIDENCE-OF: R-05791-54928 Running VACUUM ensures that each table and
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# index is largely stored contiguously within the database file.
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#
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# e_vacuum-1.2.1 - Perform many INSERT, UPDATE and DELETE ops on table t1.
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# e_vacuum-1.2.2 - Verify that t1 and its indexes are now quite fragmented.
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# e_vacuum-1.2.3 - Run VACUUM.
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# e_vacuum-1.2.4 - Verify that t1 and its indexes are now much
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# less fragmented.
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#
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ifcapable vtab&&compound {
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create_db
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register_dbstat_vtab db
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do_execsql_test e_vacuum-1.2.1 {
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DELETE FROM t1 WHERE a%2;
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INSERT INTO t1 SELECT b, a FROM t2 WHERE a%2;
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UPDATE t1 SET b=randomblob(600) WHERE (a%2)==0;
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} {}
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do_test e_vacuum-1.2.2.1 { expr [fragment_count t1]>100 } 1
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do_test e_vacuum-1.2.2.2 { expr [fragment_count sqlite_autoindex_t1_1]>100 } 1
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do_test e_vacuum-1.2.2.3 { expr [fragment_count sqlite_autoindex_t1_2]>100 } 1
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do_execsql_test e_vacuum-1.2.3 { VACUUM } {}
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# In practice, the tables and indexes each end up stored as two fragments -
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# one containing the root page and another containing all other pages.
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#
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do_test e_vacuum-1.2.4.1 { fragment_count t1 } 2
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do_test e_vacuum-1.2.4.2 { fragment_count sqlite_autoindex_t1_1 } 2
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do_test e_vacuum-1.2.4.3 { fragment_count sqlite_autoindex_t1_2 } 2
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}
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# EVIDENCE-OF: R-20474-44465 Normally, the database page_size and
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# whether or not the database supports auto_vacuum must be configured
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# before the database file is actually created.
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#
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do_test e_vacuum-1.3.1.1 {
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create_db "PRAGMA page_size = 1024 ; PRAGMA auto_vacuum = FULL"
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execsql { PRAGMA page_size ; PRAGMA auto_vacuum }
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} {1024 1}
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do_test e_vacuum-1.3.1.2 {
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execsql { PRAGMA page_size = 2048 }
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execsql { PRAGMA auto_vacuum = NONE }
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execsql { PRAGMA page_size ; PRAGMA auto_vacuum }
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} {1024 1}
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# EVIDENCE-OF: R-08570-19916 However, when not in write-ahead log mode,
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# the page_size and/or auto_vacuum properties of an existing database
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# may be changed by using the page_size and/or pragma auto_vacuum
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# pragmas and then immediately VACUUMing the database.
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#
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do_test e_vacuum-1.3.2.1 {
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execsql { PRAGMA journal_mode = delete }
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execsql { PRAGMA page_size = 2048 }
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execsql { PRAGMA auto_vacuum = NONE }
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execsql VACUUM
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execsql { PRAGMA page_size ; PRAGMA auto_vacuum }
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} {2048 0}
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# EVIDENCE-OF: R-48521-51450 When in write-ahead log mode, only the
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# auto_vacuum support property can be changed using VACUUM.
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#
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ifcapable wal {
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do_test e_vacuum-1.3.3.1 {
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execsql { PRAGMA journal_mode = wal }
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execsql { PRAGMA page_size ; PRAGMA auto_vacuum }
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} {2048 0}
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do_test e_vacuum-1.3.3.2 {
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execsql { PRAGMA page_size = 1024 }
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execsql { PRAGMA auto_vacuum = FULL }
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execsql VACUUM
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execsql { PRAGMA page_size ; PRAGMA auto_vacuum }
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} {2048 1}
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}
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# EVIDENCE-OF: R-38001-03952 VACUUM only works on the main database. It
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# is not possible to VACUUM an attached database file.
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forcedelete test.db2
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create_db { PRAGMA auto_vacuum = NONE }
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do_execsql_test e_vacuum-2.1.1 {
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ATTACH 'test.db2' AS aux;
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PRAGMA aux.page_size = 1024;
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CREATE TABLE aux.t3 AS SELECT * FROM t1;
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DELETE FROM t3;
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} {}
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set original_size [file size test.db2]
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# Try everything we can think of to get the aux database vacuumed:
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do_execsql_test e_vacuum-2.1.3 { VACUUM } {}
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do_execsql_test e_vacuum-2.1.4 { VACUUM aux } {}
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do_execsql_test e_vacuum-2.1.5 { VACUUM 'test.db2' } {}
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# Despite our efforts, space in the aux database has not been reclaimed:
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do_test e_vacuum-2.1.6 { expr {[file size test.db2]==$::original_size} } 1
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# EVIDENCE-OF: R-17495-17419 The VACUUM command may change the ROWIDs of
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# entries in any tables that do not have an explicit INTEGER PRIMARY
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# KEY.
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#
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# Tests e_vacuum-3.1.1 - 3.1.2 demonstrate that rowids can change when
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# a database is VACUUMed. Tests e_vacuum-3.1.3 - 3.1.4 show that adding
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# an INTEGER PRIMARY KEY column to a table stops this from happening.
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#
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do_execsql_test e_vacuum-3.1.1 {
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CREATE TABLE t4(x);
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INSERT INTO t4(x) VALUES('x');
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INSERT INTO t4(x) VALUES('y');
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INSERT INTO t4(x) VALUES('z');
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DELETE FROM t4 WHERE x = 'y';
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SELECT rowid, x FROM t4;
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} {1 x 3 z}
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do_execsql_test e_vacuum-3.1.2 {
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VACUUM;
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SELECT rowid, x FROM t4;
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} {1 x 2 z}
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do_execsql_test e_vacuum-3.1.3 {
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CREATE TABLE t5(x, y INTEGER PRIMARY KEY);
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INSERT INTO t5(x) VALUES('x');
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INSERT INTO t5(x) VALUES('y');
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INSERT INTO t5(x) VALUES('z');
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DELETE FROM t5 WHERE x = 'y';
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SELECT rowid, x FROM t5;
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} {1 x 3 z}
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do_execsql_test e_vacuum-3.1.4 {
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VACUUM;
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SELECT rowid, x FROM t5;
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} {1 x 3 z}
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# EVIDENCE-OF: R-49563-33883 A VACUUM will fail if there is an open
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# transaction, or if there are one or more active SQL statements when it
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# is run.
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#
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do_execsql_test e_vacuum-3.2.1.1 { BEGIN } {}
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do_catchsql_test e_vacuum-3.2.1.2 {
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VACUUM
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} {1 {cannot VACUUM from within a transaction}}
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do_execsql_test e_vacuum-3.2.1.3 { COMMIT } {}
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do_execsql_test e_vacuum-3.2.1.4 { VACUUM } {}
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do_execsql_test e_vacuum-3.2.1.5 { SAVEPOINT x } {}
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do_catchsql_test e_vacuum-3.2.1.6 {
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VACUUM
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} {1 {cannot VACUUM from within a transaction}}
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do_execsql_test e_vacuum-3.2.1.7 { COMMIT } {}
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do_execsql_test e_vacuum-3.2.1.8 { VACUUM } {}
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create_db
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do_test e_vacuum-3.2.2.1 {
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set res ""
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db eval { SELECT a FROM t1 } {
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if {$a == 10} { set res [catchsql VACUUM] }
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}
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set res
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} {1 {cannot VACUUM - SQL statements in progress}}
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# EVIDENCE-OF: R-38735-12540 As of SQLite version 3.1, an alternative to
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# using the VACUUM command to reclaim space after data has been deleted
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# is auto-vacuum mode, enabled using the auto_vacuum pragma.
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#
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do_test e_vacuum-3.3.1 {
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create_db { PRAGMA auto_vacuum = FULL }
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execsql { PRAGMA auto_vacuum }
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} {1}
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# EVIDENCE-OF: R-64844-34873 When auto_vacuum is enabled for a database
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# free pages may be reclaimed after deleting data, causing the file to
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# shrink, without rebuilding the entire database using VACUUM.
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#
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do_test e_vacuum-3.3.2.1 {
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create_db { PRAGMA auto_vacuum = FULL }
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execsql {
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DELETE FROM t1;
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DELETE FROM t2;
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}
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expr {[file size test.db] / 1024}
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} {8}
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do_test e_vacuum-3.3.2.2 {
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create_db { PRAGMA auto_vacuum = INCREMENTAL }
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execsql {
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DELETE FROM t1;
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DELETE FROM t2;
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PRAGMA incremental_vacuum;
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}
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expr {[file size test.db] / 1024}
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} {8}
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finish_test
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