0
0
mirror of https://github.com/sqlite/sqlite.git synced 2024-11-29 00:12:23 +01:00
sqlite/test/func6.test
drh d024eca323 Fix an assert() statement in the covering index optimization for the corner
case of dealing with an sqlite_offset() SQL function call.

FossilOrigin-Name: 3950b7d006add571579158c751247a9435801e53eafd84b43dd3046e01da8ee6
2022-03-14 22:58:04 +00:00

184 lines
5.2 KiB
Plaintext

# 2017-12-16
#
# The author disclaims copyright to this source code. In place of
# a legal notice, here is a blessing:
#
# May you do good and not evil.
# May you find forgiveness for yourself and forgive others.
# May you share freely, never taking more than you give.
#
#*************************************************************************
#
# Test cases for the sqlite_offset() function.
#
# Some of the tests in this file depend on the exact placement of content
# within b-tree pages. Such placement is at the implementations discretion,
# and so it is possible for results to change from one release to the next.
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
ifcapable !offset_sql_func {
finish_test
return
}
set bNullTrim 0
ifcapable null_trim {
set bNullTrim 1
}
do_execsql_test func6-100 {
PRAGMA page_size=4096;
PRAGMA auto_vacuum=NONE;
CREATE TABLE t1(a,b,c,d);
WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<100)
INSERT INTO t1(a,b,c,d) SELECT printf('abc%03x',x), x, 1000-x, NULL FROM c;
CREATE INDEX t1a ON t1(a);
CREATE INDEX t1bc ON t1(b,c);
CREATE TABLE t2(x TEXT PRIMARY KEY, y) WITHOUT ROWID;
INSERT INTO t2(x,y) SELECT a, b FROM t1;
}
# Load the contents of $file from disk and return it encoded as a hex
# string.
proc loadhex {file} {
set fd [open $file]
fconfigure $fd -translation binary -encoding binary
set data [read $fd]
close $fd
binary encode hex $data
}
# Each argument is either an integer between 0 and 65535, a text value, or
# an empty string representing an SQL NULL. This command builds an SQLite
# record containing the values passed as arguments and returns it encoded
# as a hex string.
proc hexrecord {args} {
set hdr ""
set body ""
if {$::bNullTrim} {
while {[llength $args] && [lindex $args end]=={}} {
set args [lrange $args 0 end-1]
}
}
foreach x $args {
if {$x==""} {
append hdr 00
} elseif {[string is integer $x]==0} {
set n [string length $x]
append hdr [format %02x [expr $n*2 + 13]]
append body [binary encode hex $x]
} elseif {$x == 0} {
append hdr 08
} elseif {$x == 1} {
append hdr 09
} elseif {$x <= 127} {
append hdr 01
append body [format %02x $x]
} else {
append hdr 02
append body [format %04x $x]
}
}
set res [format %02x [expr 1 + [string length $hdr]/2]]
append res $hdr
append res $body
}
# Argument $off is an offset into the database image encoded as a hex string
# in argument $hexdb. This command returns 0 if the offset contains the hex
# $hexrec, or throws an exception otherwise.
#
proc offset_contains_record {off hexdb hexrec} {
set n [string length $hexrec]
set off [expr $off*2]
if { [string compare $hexrec [string range $hexdb $off [expr $off+$n-1]]] } {
error "record not found!"
}
return 0
}
# This command is the implementation of SQL function "offrec()". The first
# argument to this is an offset value. The remaining values are used to
# formulate an SQLite record. If database file test.db does not contain
# an equivalent record at the specified offset, an exception is thrown.
# Otherwise, 0 is returned.
#
proc offrec {args} {
set offset [lindex $args 0]
set rec [hexrecord {*}[lrange $args 1 end]]
offset_contains_record $offset $::F $rec
}
set F [loadhex test.db]
db func offrec offrec
# Test the sanity of the tests.
if {$bNullTrim} {
set offset 8180
} else {
set offset 8179
}
do_execsql_test func6-105 {
SELECT sqlite_offset(d) FROM t1 ORDER BY rowid LIMIT 1;
} $offset
do_test func6-106 {
set r [hexrecord abc001 1 999 {}]
offset_contains_record $offset $F $r
} 0
set z100 [string trim [string repeat "0 " 100]]
# Test offsets within table b-tree t1.
do_execsql_test func6-110 {
SELECT offrec(sqlite_offset(d), a, b, c, d) FROM t1 ORDER BY rowid
} $z100
do_execsql_test func6-120 {
SELECT a, typeof(sqlite_offset(+a)) FROM t1
ORDER BY rowid LIMIT 2;
} {abc001 null abc002 null}
# Test offsets within index b-tree t1a.
do_execsql_test func6-130 {
SELECT offrec(sqlite_offset(a), a, rowid) FROM t1 ORDER BY a
} $z100
# Test offsets within table b-tree t1 with a temp b-tree ORDER BY.
do_execsql_test func6-140 {
SELECT offrec(sqlite_offset(d), a, b, c, d) FROM t1 ORDER BY a
} $z100
# Test offsets from both index t1a and table t1 in the same query.
do_execsql_test func6-150 {
SELECT offrec(sqlite_offset(a), a, rowid),
offrec(sqlite_offset(d), a, b, c, d)
FROM t1 ORDER BY a
} [concat $z100 $z100]
# Test offsets from both index t1bc and table t1 in the same query.
do_execsql_test func6-160 {
SELECT offrec(sqlite_offset(b), b, c, rowid),
offrec(sqlite_offset(c), b, c, rowid),
offrec(sqlite_offset(d), a, b, c, d)
FROM t1
ORDER BY b
} [concat $z100 $z100 $z100]
# Test offsets in WITHOUT ROWID table t2.
do_execsql_test func6-200 {
SELECT offrec( sqlite_offset(y), x, y ) FROM t2 ORDER BY x
} $z100
# 2022-03-14 dbsqlfuzz 474499f3977d95fdf2dbcd99c50be1d0082e4c92
reset_db
do_execsql_test func6-300 {
CREATE TABLE t2(a INT, b INT PRIMARY KEY) WITHOUT ROWID;
CREATE INDEX x3 ON t2(b);
CREATE TABLE t1(a INT PRIMARY KEY, b TEXT);
SELECT * FROM t1 WHERE a IN (SELECT sqlite_offset(b) FROM t2);
} {}
finish_test