sqlite/test/like.test
drh 00eee07911 Fix the PRAGMA case_sensitive_like command so that the LIKE function continues
to be innocuous after the PRAGMA.
[forum:/forumpost/925dc9f67804c540|Forum post 925dc9f67804c540].

FossilOrigin-Name: 84c268c34cba7207a90dad2a8e972ce90c85304e91f4933c76963822ad1ae48b
2023-08-15 11:58:22 +00:00

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# 2005 August 13
#
# 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.
#
#***********************************************************************
# This file implements regression tests for SQLite library. The
# focus of this file is testing the LIKE and GLOB operators and
# in particular the optimizations that occur to help those operators
# run faster.
#
# $Id: like.test,v 1.13 2009/06/07 23:45:11 drh Exp $
set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix like
# Create some sample data to work with.
#
do_test like-1.0 {
execsql {
CREATE TABLE t1(x TEXT);
}
foreach str {
a
ab
abc
abcd
acd
abd
bc
bcd
xyz
ABC
CDE
{ABC abc xyz}
} {
db eval {INSERT INTO t1 VALUES(:str)}
}
execsql {
SELECT count(*) FROM t1;
}
} {12}
# Test that both case sensitive and insensitive version of LIKE work.
#
do_test like-1.1 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'abc' ORDER BY 1;
}
} {ABC abc}
do_test like-1.2 {
execsql {
SELECT x FROM t1 WHERE x GLOB 'abc' ORDER BY 1;
}
} {abc}
do_test like-1.3 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'ABC' ORDER BY 1;
}
} {ABC abc}
do_test like-1.4 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'aBc' ORDER BY 1;
}
} {ABC abc}
do_test like-1.5.1 {
# Use sqlite3_exec() to verify fix for ticket [25ee81271091] 2011-06-26
sqlite3_exec db {PRAGMA case_sensitive_like=on}
} {0 {}}
do_test like-1.5.2 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'abc' ORDER BY 1;
}
} {abc}
do_test like-1.5.3 {
execsql {
PRAGMA case_sensitive_like; -- no argument; does not change setting
SELECT x FROM t1 WHERE x LIKE 'abc' ORDER BY 1;
}
} {abc}
do_test like-1.6 {
execsql {
SELECT x FROM t1 WHERE x GLOB 'abc' ORDER BY 1;
}
} {abc}
do_test like-1.7 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'ABC' ORDER BY 1;
}
} {ABC}
do_test like-1.8 {
execsql {
SELECT x FROM t1 WHERE x LIKE 'aBc' ORDER BY 1;
}
} {}
do_test like-1.9 {
execsql {
PRAGMA case_sensitive_like=off;
SELECT x FROM t1 WHERE x LIKE 'abc' ORDER BY 1;
}
} {ABC abc}
do_test like-1.10 {
execsql {
PRAGMA case_sensitive_like; -- No argument, does not change setting.
SELECT x FROM t1 WHERE x LIKE 'abc' ORDER BY 1;
}
} {ABC abc}
# Tests of the REGEXP operator
#
do_test like-2.1 {
proc test_regexp {a b} {
return [regexp $a $b]
}
db function regexp -argcount 2 test_regexp
execsql {
SELECT x FROM t1 WHERE x REGEXP 'abc' ORDER BY 1;
}
} {{ABC abc xyz} abc abcd}
do_test like-2.2 {
execsql {
SELECT x FROM t1 WHERE x REGEXP '^abc' ORDER BY 1;
}
} {abc abcd}
# Tests of the MATCH operator
#
do_test like-2.3 {
proc test_match {a b} {
return [string match $a $b]
}
db function match -argcount 2 test_match
execsql {
SELECT x FROM t1 WHERE x MATCH '*abc*' ORDER BY 1;
}
} {{ABC abc xyz} abc abcd}
do_test like-2.4 {
execsql {
SELECT x FROM t1 WHERE x MATCH 'abc*' ORDER BY 1;
}
} {abc abcd}
# For the remaining tests, we need to have the like optimizations
# enabled.
#
ifcapable !like_opt {
finish_test
return
}
# This procedure executes the SQL. Then it appends to the result the
# "sort" or "nosort" keyword (as in the cksort procedure above) then
# it appends the names of the table and index used.
#
proc queryplan {sql} {
set ::sqlite_sort_count 0
db cache flush
set data [execsql $sql]
if {$::sqlite_sort_count} {set x sort} {set x nosort}
lappend data $x
set eqp [execsql "EXPLAIN QUERY PLAN $sql"]
# puts eqp=$eqp
foreach {a b c x} $eqp {
if {[regexp {(SCAN|SEARCH) (\w+ AS )?(\w+) USING COVERING INDEX (\w+)\y} \
$x all ss as tab idx]} {
lappend data {} $idx
} elseif {[regexp {(SCAN|SEARCH) (\w+ AS )?(\w+) USING.* INDEX (\w+)\y} \
$x all ss as tab idx]} {
lappend data $tab $idx
} elseif {[regexp {(SCAN|SEARCH) (\w+ AS )?(\w+)\y} $x all ss as tab]} {
lappend data $tab *
}
}
return $data
}
# Perform tests on the like optimization.
#
# With no index on t1.x and with case sensitivity turned off, no optimization
# is performed.
#
do_test like-3.1 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
}
} {ABC {ABC abc xyz} abc abcd sort t1 *}
do_test like-3.2 {
set sqlite_like_count
} {12}
# With an index on t1.x and case sensitivity on, optimize completely.
#
do_test like-3.3.100 {
set sqlite_like_count 0
execsql {
PRAGMA case_sensitive_like=on;
CREATE INDEX i1 ON t1(x);
}
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.3.100.cnt {
set sqlite_like_count
} 0
# The like optimization works even when the pattern is a bound parameter
#
# Exception: It does not work if sqlite3_prepare() is used instead of
# sqlite3_prepare_v2(), as in that case the statement cannot be reprepared
# after the parameter is bound.
#
unset -nocomplain ::likepat
set ::likepat abc%
if {[permutation]!="prepare"} {
do_test like-3.3.102 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE $::likepat ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.3.103 {
set sqlite_like_count
} 0
}
# Except, the like optimization does not work for bound parameters if
# the query planner stability guarantee is active.
#
do_test like-3.3.104 {
set sqlite_like_count 0
sqlite3_db_config db QPSG 1
queryplan {
SELECT x FROM t1 WHERE x LIKE $::likepat ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.3.105 {
set sqlite_like_count
} 12
# The query planner stability guarantee does not disrupt explicit patterns
#
do_test like-3.3.105 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.3.106 {
set sqlite_like_count
} 0
sqlite3_db_config db QPSG 0
# The LIKE optimization still works when the RHS is a string with no
# wildcard. Ticket [e090183531fc2747]
#
do_test like-3.4.2 {
queryplan {
SELECT x FROM t1 WHERE x LIKE 'a' ORDER BY 1;
}
} {a nosort {} i1}
do_test like-3.4.3 {
queryplan {
SELECT x FROM t1 WHERE x LIKE 'ab' ORDER BY 1;
}
} {ab nosort {} i1}
do_test like-3.4.4 {
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abcd' ORDER BY 1;
}
} {abcd nosort {} i1}
do_test like-3.4.5 {
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abcde' ORDER BY 1;
}
} {nosort {} i1}
# Partial optimization when the pattern does not end in '%'
#
do_test like-3.5 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'a_c' ORDER BY 1;
}
} {abc nosort {} i1}
do_test like-3.6 {
set sqlite_like_count
} 6
do_test like-3.7 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'ab%d' ORDER BY 1;
}
} {abcd abd nosort {} i1}
do_test like-3.8 {
set sqlite_like_count
} 4
do_test like-3.9 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'a_c%' ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.10 {
set sqlite_like_count
} 6
# No optimization when the pattern begins with a wildcard.
# Note that the index is still used but only for sorting.
#
do_test like-3.11 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE '%bcd' ORDER BY 1;
}
} {abcd bcd nosort {} i1}
do_test like-3.12 {
set sqlite_like_count
} 12
# No optimization for case insensitive LIKE
#
do_test like-3.13 {
set sqlite_like_count 0
db eval {PRAGMA case_sensitive_like=off;}
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
}
} {ABC {ABC abc xyz} abc abcd nosort {} i1}
do_test like-3.14 {
set sqlite_like_count
} 12
# No optimization without an index.
#
do_test like-3.15 {
set sqlite_like_count 0
db eval {
PRAGMA case_sensitive_like=on;
DROP INDEX i1;
}
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1;
}
} {abc abcd sort t1 *}
do_test like-3.16 {
set sqlite_like_count
} 12
# No GLOB optimization without an index.
#
do_test like-3.17 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
}
} {abc abcd sort t1 *}
do_test like-3.18 {
set sqlite_like_count
} 12
# GLOB is optimized regardless of the case_sensitive_like setting.
#
do_test like-3.19 {
set sqlite_like_count 0
db eval {CREATE INDEX i1 ON t1(x);}
queryplan {
SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.20 {
set sqlite_like_count
} 0
do_test like-3.21 {
set sqlite_like_count 0
db eval {PRAGMA case_sensitive_like=on;}
queryplan {
SELECT x FROM t1 WHERE x GLOB 'abc*' ORDER BY 1;
}
} {abc abcd nosort {} i1}
do_test like-3.22 {
set sqlite_like_count
} 0
do_test like-3.23 {
set sqlite_like_count 0
db eval {PRAGMA case_sensitive_like=off;}
queryplan {
SELECT x FROM t1 WHERE x GLOB 'a[bc]d' ORDER BY 1;
}
} {abd acd nosort {} i1}
do_test like-3.24 {
set sqlite_like_count
} 6
# GLOB optimization when there is no wildcard. Ticket [e090183531fc2747]
#
do_test like-3.25 {
queryplan {
SELECT x FROM t1 WHERE x GLOB 'a' ORDER BY 1;
}
} {a nosort {} i1}
do_test like-3.26 {
queryplan {
SELECT x FROM t1 WHERE x GLOB 'abcd' ORDER BY 1;
}
} {abcd nosort {} i1}
do_test like-3.27 {
queryplan {
SELECT x FROM t1 WHERE x GLOB 'abcde' ORDER BY 1;
}
} {nosort {} i1}
# No optimization if the LHS of the LIKE is not a column name or
# if the RHS is not a string.
#
do_test like-4.1 {
execsql {PRAGMA case_sensitive_like=on}
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1
}
} {abc abcd nosort {} i1}
do_test like-4.2 {
set sqlite_like_count
} 0
do_test like-4.3 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE +x LIKE 'abc%' ORDER BY 1
}
} {abc abcd nosort {} i1}
do_test like-4.4 {
set sqlite_like_count
} 12
do_test like-4.5 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE ('ab' || 'c%') ORDER BY 1
}
} {abc abcd nosort {} i1}
do_test like-4.6 {
set sqlite_like_count
} 12
# Collating sequences on the index disable the LIKE optimization.
# Or if the NOCASE collating sequence is used, the LIKE optimization
# is enabled when case_sensitive_like is OFF.
#
do_test like-5.1 {
execsql {PRAGMA case_sensitive_like=off}
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'abc%' ORDER BY 1
}
} {ABC {ABC abc xyz} abc abcd nosort {} i1}
do_test like-5.2 {
set sqlite_like_count
} 12
do_test like-5.3 {
execsql {
CREATE TABLE t2(x TEXT COLLATE NOCASE);
INSERT INTO t2 SELECT * FROM t1 ORDER BY rowid;
CREATE INDEX i2 ON t2(x COLLATE NOCASE);
}
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x LIKE 'abc%' ORDER BY 1
}
} {abc ABC {ABC abc xyz} abcd nosort {} i2}
do_test like-5.4 {
set sqlite_like_count
} 0
do_test like-5.5 {
execsql {
PRAGMA case_sensitive_like=on;
}
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x LIKE 'abc%' ORDER BY 1
}
} {abc abcd nosort {} i2}
do_test like-5.6 {
set sqlite_like_count
} 12
do_test like-5.7 {
execsql {
PRAGMA case_sensitive_like=off;
}
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x GLOB 'abc*' ORDER BY 1
}
} {abc abcd nosort {} i2}
do_test like-5.8 {
set sqlite_like_count
} 12
do_test like-5.11 {
execsql {PRAGMA case_sensitive_like=off}
set sqlite_like_count 0
queryplan {
SELECT x FROM t1 WHERE x LIKE 'ABC%' ORDER BY 1
}
} {ABC {ABC abc xyz} abc abcd nosort {} i1}
do_test like-5.12 {
set sqlite_like_count
} 12
do_test like-5.13 {
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x LIKE 'ABC%' ORDER BY 1
}
} {abc ABC {ABC abc xyz} abcd nosort {} i2}
do_test like-5.14 {
set sqlite_like_count
} 0
do_test like-5.15 {
execsql {
PRAGMA case_sensitive_like=on;
}
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x LIKE 'ABC%' ORDER BY 1
}
} {ABC {ABC abc xyz} nosort {} i2}
do_test like-5.16 {
set sqlite_like_count
} 12
do_test like-5.17 {
execsql {
PRAGMA case_sensitive_like=off;
}
set sqlite_like_count 0
queryplan {
SELECT x FROM t2 WHERE x GLOB 'ABC*' ORDER BY 1
}
} {ABC {ABC abc xyz} nosort {} i2}
do_test like-5.18 {
set sqlite_like_count
} 12
# Boundary case. The prefix for a LIKE comparison is rounded up
# when constructing the comparison. Example: "ab" becomes "ac".
# In other words, the last character is increased by one.
#
# Make sure this happens correctly when the last character is a
# "z" and we are doing case-insensitive comparisons.
#
# Ticket #2959
#
do_test like-5.21 {
execsql {
PRAGMA case_sensitive_like=off;
INSERT INTO t2 VALUES('ZZ-upper-upper');
INSERT INTO t2 VALUES('zZ-lower-upper');
INSERT INTO t2 VALUES('Zz-upper-lower');
INSERT INTO t2 VALUES('zz-lower-lower');
}
queryplan {
SELECT x FROM t2 WHERE x LIKE 'zz%';
}
} {zz-lower-lower zZ-lower-upper Zz-upper-lower ZZ-upper-upper nosort {} i2}
do_test like-5.22 {
queryplan {
SELECT x FROM t2 WHERE x LIKE 'zZ%';
}
} {zz-lower-lower zZ-lower-upper Zz-upper-lower ZZ-upper-upper nosort {} i2}
do_test like-5.23 {
queryplan {
SELECT x FROM t2 WHERE x LIKE 'Zz%';
}
} {zz-lower-lower zZ-lower-upper Zz-upper-lower ZZ-upper-upper nosort {} i2}
do_test like-5.24 {
queryplan {
SELECT x FROM t2 WHERE x LIKE 'ZZ%';
}
} {zz-lower-lower zZ-lower-upper Zz-upper-lower ZZ-upper-upper nosort {} i2}
do_test like-5.25 {
db eval {
PRAGMA case_sensitive_like=on;
CREATE TABLE t3(x TEXT);
CREATE INDEX i3 ON t3(x);
INSERT INTO t3 VALUES('ZZ-upper-upper');
INSERT INTO t3 VALUES('zZ-lower-upper');
INSERT INTO t3 VALUES('Zz-upper-lower');
INSERT INTO t3 VALUES('zz-lower-lower');
}
queryplan {
SELECT x FROM t3 WHERE x LIKE 'zz%';
}
} {zz-lower-lower nosort {} i3}
do_test like-5.26 {
queryplan {
SELECT x FROM t3 WHERE x LIKE 'zZ%';
}
} {zZ-lower-upper nosort {} i3}
do_test like-5.27 {
queryplan {
SELECT x FROM t3 WHERE x LIKE 'Zz%';
}
} {Zz-upper-lower nosort {} i3}
do_test like-5.28 {
queryplan {
SELECT x FROM t3 WHERE x LIKE 'ZZ%';
}
} {ZZ-upper-upper nosort {} i3}
# ticket #2407
#
# Make sure the LIKE prefix optimization does not strip off leading
# characters of the like pattern that happen to be quote characters.
#
do_test like-6.1 {
foreach x { 'abc 'bcd 'def 'ax } {
set x2 '[string map {' ''} $x]'
db eval "INSERT INTO t2 VALUES($x2)"
}
execsql {
SELECT * FROM t2 WHERE x LIKE '''a%'
}
} {'abc 'ax}
do_test like-7.1 {
execsql {
SELECT rowid, * FROM t1 WHERE rowid GLOB '1*' ORDER BY rowid;
}
} {1 a 10 ABC 11 CDE 12 {ABC abc xyz}}
# ticket #3345.
#
# Overloading the LIKE function with -1 for the number of arguments
# will overload both the 2-argument and the 3-argument LIKE.
#
do_test like-8.1 {
db eval {
CREATE TABLE t8(x);
INSERT INTO t8 VALUES('abcdef');
INSERT INTO t8 VALUES('ghijkl');
INSERT INTO t8 VALUES('mnopqr');
SELECT 1, x FROM t8 WHERE x LIKE '%h%';
SELECT 2, x FROM t8 WHERE x LIKE '%h%' ESCAPE 'x';
}
} {1 ghijkl 2 ghijkl}
do_test like-8.2 {
proc newlike {args} {return 1} ;# Alternative LIKE is always return TRUE
db function like newlike ;# Uses -1 for nArg in sqlite3_create_function
db cache flush
db eval {
SELECT 1, x FROM t8 WHERE x LIKE '%h%';
SELECT 2, x FROM t8 WHERE x LIKE '%h%' ESCAPE 'x';
}
} {1 ghijkl 2 ghijkl}
do_test like-8.3 {
db function like -argcount 2 newlike
db eval {
SELECT 1, x FROM t8 WHERE x LIKE '%h%';
SELECT 2, x FROM t8 WHERE x LIKE '%h%' ESCAPE 'x';
}
} {1 abcdef 1 ghijkl 1 mnopqr 2 ghijkl}
do_test like-8.4 {
db function like -argcount 3 newlike
db eval {
SELECT 1, x FROM t8 WHERE x LIKE '%h%';
SELECT 2, x FROM t8 WHERE x LIKE '%h%' ESCAPE 'x';
}
} {1 abcdef 1 ghijkl 1 mnopqr 2 abcdef 2 ghijkl 2 mnopqr}
ifcapable like_opt&&!icu {
# Evaluate SQL. Return the result set followed by the
# and the number of full-scan steps.
#
db close
sqlite3 db test.db
proc count_steps {sql} {
set r [db eval $sql]
lappend r scan [db status step] sort [db status sort]
}
do_test like-9.1 {
count_steps {
SELECT x FROM t2 WHERE x LIKE 'x%'
}
} {xyz scan 0 sort 0}
do_test like-9.2 {
count_steps {
SELECT x FROM t2 WHERE x LIKE '_y%'
}
} {xyz scan 19 sort 0}
do_test like-9.3.1 {
set res [sqlite3_exec_hex db {
SELECT x FROM t2 WHERE x LIKE '%78%25'
}]
} {0 {x xyz}}
ifcapable explain {
do_test like-9.3.2 {
set res [sqlite3_exec_hex db {
EXPLAIN QUERY PLAN SELECT x FROM t2 WHERE x LIKE '%78%25'
}]
regexp {INDEX i2} $res
} {1}
}
do_test like-9.4.1 {
sqlite3_exec_hex db {INSERT INTO t2 VALUES('%ffhello')}
set res [sqlite3_exec_hex db {
SELECT substr(x,2) AS x FROM t2 WHERE +x LIKE '%ff%25'
}]
} {0 {x hello}}
do_test like-9.4.2 {
set res [sqlite3_exec_hex db {
SELECT substr(x,2) AS x FROM t2 WHERE x LIKE '%ff%25'
}]
} {0 {x hello}}
ifcapable explain {
do_test like-9.4.3 {
set res [sqlite3_exec_hex db {
EXPLAIN QUERY PLAN SELECT x FROM t2 WHERE x LIKE '%ff%25'
}]
regexp {SCAN t2} $res
} {1}
}
do_test like-9.5.1 {
set res [sqlite3_exec_hex db {
SELECT x FROM t2 WHERE x LIKE '%fe%25'
}]
} {0 {}}
ifcapable explain {
do_test like-9.5.2 {
set res [sqlite3_exec_hex db {
EXPLAIN QUERY PLAN SELECT x FROM t2 WHERE x LIKE '%fe%25'
}]
regexp {INDEX i2} $res
} {1}
}
# Do an SQL statement. Append the search count to the end of the result.
#
proc count sql {
set ::sqlite_search_count 0
set ::sqlite_like_count 0
return [concat [execsql $sql] scan $::sqlite_search_count \
like $::sqlite_like_count]
}
# The LIKE and GLOB optimizations do not work on columns with
# affinity other than TEXT.
# Ticket #3901
#
do_test like-10.1 {
db close
sqlite3 db test.db
execsql {
CREATE TABLE t10(
a INTEGER PRIMARY KEY,
b INTEGER COLLATE nocase UNIQUE,
c NUMBER COLLATE nocase UNIQUE,
d BLOB COLLATE nocase UNIQUE,
e COLLATE nocase UNIQUE,
f TEXT COLLATE nocase UNIQUE
);
INSERT INTO t10 VALUES(1,1,1,1,1,1);
INSERT INTO t10 VALUES(12,12,12,12,12,12);
INSERT INTO t10 VALUES(123,123,123,123,123,123);
INSERT INTO t10 VALUES(234,234,234,234,234,234);
INSERT INTO t10 VALUES(345,345,345,345,345,345);
INSERT INTO t10 VALUES(45,45,45,45,45,45);
}
count {
SELECT a FROM t10 WHERE b LIKE '12%' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.2 {
count {
SELECT a FROM t10 WHERE c LIKE '12%' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.3 {
count {
SELECT a FROM t10 WHERE d LIKE '12%' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.4 {
count {
SELECT a FROM t10 WHERE e LIKE '12%' ORDER BY +a;
}
} {12 123 scan 5 like 6}
ifcapable like_match_blobs {
do_test like-10.5a {
count {
SELECT a FROM t10 WHERE f LIKE '12%' ORDER BY +a;
}
} {12 123 scan 4 like 0}
} else {
do_test like-10.5b {
count {
SELECT a FROM t10 WHERE f LIKE '12%' ORDER BY +a;
}
} {12 123 scan 3 like 0}
}
do_test like-10.6 {
count {
SELECT a FROM t10 WHERE a LIKE '12%' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.10 {
execsql {
CREATE TABLE t10b(
a INTEGER PRIMARY KEY,
b INTEGER UNIQUE,
c NUMBER UNIQUE,
d BLOB UNIQUE,
e UNIQUE,
f TEXT UNIQUE
);
INSERT INTO t10b SELECT * FROM t10;
}
count {
SELECT a FROM t10b WHERE b GLOB '12*' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.11 {
count {
SELECT a FROM t10b WHERE c GLOB '12*' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.12 {
count {
SELECT a FROM t10b WHERE d GLOB '12*' ORDER BY +a;
}
} {12 123 scan 5 like 6}
do_test like-10.13 {
count {
SELECT a FROM t10b WHERE e GLOB '12*' ORDER BY +a;
}
} {12 123 scan 5 like 6}
ifcapable like_match_blobs {
do_test like-10.14 {
count {
SELECT a FROM t10b WHERE f GLOB '12*' ORDER BY +a;
}
} {12 123 scan 4 like 0}
} else {
do_test like-10.14 {
count {
SELECT a FROM t10b WHERE f GLOB '12*' ORDER BY +a;
}
} {12 123 scan 3 like 0}
}
do_test like-10.15 {
count {
SELECT a FROM t10b WHERE a GLOB '12*' ORDER BY +a;
}
} {12 123 scan 5 like 6}
}
# LIKE and GLOB where the default collating sequence is not appropriate
# but an index with the appropriate collating sequence exists.
#
do_test like-11.0 {
execsql {
CREATE TABLE t11(
a INTEGER PRIMARY KEY,
b TEXT COLLATE nocase,
c TEXT COLLATE binary
);
INSERT INTO t11 VALUES(1, 'a','a');
INSERT INTO t11 VALUES(2, 'ab','ab');
INSERT INTO t11 VALUES(3, 'abc','abc');
INSERT INTO t11 VALUES(4, 'abcd','abcd');
INSERT INTO t11 VALUES(5, 'A','A');
INSERT INTO t11 VALUES(6, 'AB','AB');
INSERT INTO t11 VALUES(7, 'ABC','ABC');
INSERT INTO t11 VALUES(8, 'ABCD','ABCD');
INSERT INTO t11 VALUES(9, 'x','x');
INSERT INTO t11 VALUES(10, 'yz','yz');
INSERT INTO t11 VALUES(11, 'X','X');
INSERT INTO t11 VALUES(12, 'YZ','YZ');
SELECT count(*) FROM t11;
}
} {12}
do_test like-11.1 {
db eval {PRAGMA case_sensitive_like=OFF;}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
}
} {abc abcd ABC ABCD nosort t11 *}
do_test like-11.2 {
db eval {PRAGMA case_sensitive_like=ON;}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
}
} {abc abcd nosort t11 *}
do_test like-11.3 {
db eval {
PRAGMA case_sensitive_like=OFF;
CREATE INDEX t11b ON t11(b);
}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
}
} {abc abcd ABC ABCD sort {} t11b}
do_test like-11.4 {
db eval {PRAGMA case_sensitive_like=ON;}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY a;
}
} {abc abcd nosort t11 *}
do_test like-11.5 {
db eval {
PRAGMA case_sensitive_like=OFF;
DROP INDEX t11b;
CREATE INDEX t11bnc ON t11(b COLLATE nocase);
}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
}
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.6 {
db eval {CREATE INDEX t11bb ON t11(b COLLATE binary);}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
}
} {abc abcd ABC ABCD sort {} t11bnc}
do_test like-11.7 {
db eval {PRAGMA case_sensitive_like=ON;}
queryplan {
SELECT b FROM t11 WHERE b LIKE 'abc%' ORDER BY +a;
}
} {abc abcd sort {} t11bb}
do_test like-11.8 {
db eval {PRAGMA case_sensitive_like=OFF;}
queryplan {
SELECT b FROM t11 WHERE b GLOB 'abc*' ORDER BY +a;
}
} {abc abcd sort {} t11bb}
do_test like-11.9 {
db eval {
CREATE INDEX t11cnc ON t11(c COLLATE nocase);
CREATE INDEX t11cb ON t11(c COLLATE binary);
}
queryplan {
SELECT c FROM t11 WHERE c LIKE 'abc%' ORDER BY +a;
}
} {abc abcd ABC ABCD sort {} t11cnc}
do_test like-11.10 {
queryplan {
SELECT c FROM t11 WHERE c GLOB 'abc*' ORDER BY +a;
}
} {abc abcd sort {} t11cb}
# A COLLATE clause on the pattern does not change the result of a
# LIKE operator.
#
do_execsql_test like-12.1 {
CREATE TABLE t12nc(id INTEGER, x TEXT UNIQUE COLLATE nocase);
INSERT INTO t12nc VALUES(1,'abcde'),(2,'uvwxy'),(3,'ABCDEF');
CREATE TABLE t12b(id INTEGER, x TEXT UNIQUE COLLATE binary);
INSERT INTO t12b VALUES(1,'abcde'),(2,'uvwxy'),(3,'ABCDEF');
SELECT id FROM t12nc WHERE x LIKE 'abc%' ORDER BY +id;
} {1 3}
do_execsql_test like-12.2 {
SELECT id FROM t12b WHERE x LIKE 'abc%' ORDER BY +id;
} {1 3}
do_execsql_test like-12.3 {
SELECT id FROM t12nc WHERE x LIKE 'abc%' COLLATE binary ORDER BY +id;
} {1 3}
do_execsql_test like-12.4 {
SELECT id FROM t12b WHERE x LIKE 'abc%' COLLATE binary ORDER BY +id;
} {1 3}
do_execsql_test like-12.5 {
SELECT id FROM t12nc WHERE x LIKE 'abc%' COLLATE nocase ORDER BY +id;
} {1 3}
do_execsql_test like-12.6 {
SELECT id FROM t12b WHERE x LIKE 'abc%' COLLATE nocase ORDER BY +id;
} {1 3}
# Adding a COLLATE clause to the pattern of a LIKE operator does nothing
# to change the suitability of using an index to satisfy that LIKE
# operator.
#
do_execsql_test like-12.11 {
EXPLAIN QUERY PLAN
SELECT id FROM t12nc WHERE x LIKE 'abc%' ORDER BY +id;
} {/SEARCH/}
do_execsql_test like-12.12 {
EXPLAIN QUERY PLAN
SELECT id FROM t12b WHERE x LIKE 'abc%' ORDER BY +id;
} {/SCAN/}
do_execsql_test like-12.13 {
EXPLAIN QUERY PLAN
SELECT id FROM t12nc WHERE x LIKE 'abc%' COLLATE nocase ORDER BY +id;
} {/SEARCH/}
do_execsql_test like-12.14 {
EXPLAIN QUERY PLAN
SELECT id FROM t12b WHERE x LIKE 'abc%' COLLATE nocase ORDER BY +id;
} {/SCAN/}
do_execsql_test like-12.15 {
EXPLAIN QUERY PLAN
SELECT id FROM t12nc WHERE x LIKE 'abc%' COLLATE binary ORDER BY +id;
} {/SEARCH/}
do_execsql_test like-12.16 {
EXPLAIN QUERY PLAN
SELECT id FROM t12b WHERE x LIKE 'abc%' COLLATE binary ORDER BY +id;
} {/SCAN/}
# Ticket [https://www.sqlite.org/src/tktview/80369eddd5c94d49f7fbbcf5]
# 2016-01-20
#
do_execsql_test like-13.1 {
SELECT char(0x304d) LIKE char(0x306d);
} {0}
do_execsql_test like-13.2 {
SELECT char(0x4d) LIKE char(0x306d);
} {0}
do_execsql_test like-13.3 {
SELECT char(0x304d) LIKE char(0x6d);
} {0}
do_execsql_test like-13.4 {
SELECT char(0x4d) LIKE char(0x6d);
} {1}
# Performance testing for patterns with many wildcards. These LIKE and GLOB
# patterns were quite slow with SQLite 3.15.2 and earlier.
#
do_test like-14.1 {
set x [lindex [time {
db one {SELECT 'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaz'GLOB'*a*a*a*a*a*a*a*a*y'}
}] 0]
set tlimit [expr {1000 * $::sqlite_options(configslower)}]
puts -nonewline " ($x ms - want less than $tlimit) "
expr {$x<$tlimit}
} {1}
ifcapable !icu {
do_test like-14.2 {
set x [lindex [time {
db one {SELECT 'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaz'LIKE'%a%a%a%a%a%a%a%a%y'}
}] 0]
set tlimit [expr {1000 * $::sqlite_options(configslower)}]
puts -nonewline " ($x ms - want less than $tlimit) "
expr {$x<$tlimit}
} {1}
}
ifcapable !icu {
# As of 2017-07-27 (3.21.0) the LIKE optimization works with ESCAPE as
# long as the ESCAPE is a single-byte literal.
#
db close
sqlite3 db :memory:
do_execsql_test like-15.100 {
CREATE TABLE t15(x TEXT COLLATE nocase, y, PRIMARY KEY(x));
INSERT INTO t15(x,y) VALUES
('abcde',1), ('ab%de',2), ('a_cde',3),
('uvwxy',11),('uvwx%',12),('uvwx_',13),
('_bcde',21),('%bcde',22),
('abcd_',31),('abcd%',32),
('ab%xy',41);
SELECT y FROM t15 WHERE x LIKE 'ab/%d%' ESCAPE '/';
} {2}
do_execsql_test like-15.101 {
EXPLAIN QUERY PLAN
SELECT y FROM t15 WHERE x LIKE 'ab/%d%' ESCAPE '/';
} {/SEARCH/}
do_execsql_test like-15.102 {
EXPLAIN QUERY PLAN
SELECT y FROM t15 WHERE x LIKE 'ab/%d%' ESCAPE '//';
} {/SCAN/}
do_execsql_test like-15.103 {
EXPLAIN QUERY PLAN
SELECT y FROM t15 WHERE x LIKE 'ab/%d%' ESCAPE '';
} {/SCAN/}
do_execsql_test like-15.110 {
SELECT y FROM t15 WHERE x LIKE 'abcdx%%' ESCAPE 'x';
} {32}
do_execsql_test like-15.111 {
SELECT y FROM t15 WHERE x LIKE 'abx%%' ESCAPE 'x' ORDER BY +y
} {2 41}
do_execsql_test like-15.112 {
EXPLAIN QUERY PLAN
SELECT y FROM t15 WHERE x LIKE 'abx%%' ESCAPE 'x' ORDER BY +y
} {/SEARCH/}
do_execsql_test like-15.120 {
SELECT y FROM t15 WHERE x LIKE '/%bc%' ESCAPE '/';
} {22}
do_execsql_test like-15.121 {
EXPLAIN QUERY PLAN
SELECT y FROM t15 WHERE x LIKE '/%bc%' ESCAPE '/';
} {/SEARCH/}
}
#-------------------------------------------------------------------------
# Tests for ticket [b1d8c79314].
#
reset_db
do_execsql_test 16.0 {
CREATE TABLE t1(a INTEGER COLLATE NOCASE);
CREATE INDEX i1 ON t1(a);
INSERT INTO t1 VALUES(' 1x');
INSERT INTO t1 VALUES(' 1-');
}
do_execsql_test 16.1 {
SELECT * FROM t1 WHERE a LIKE ' 1%';
} {{ 1x} { 1-}}
do_execsql_test 16.2 {
SELECT * FROM t1 WHERE a LIKE ' 1-';
} {{ 1-}}
# 2020-03-19
# The ESCAPE clause on LIKE takes precedence over wildcards
#
do_execsql_test 17.0 {
DROP TABLE IF EXISTS t1;
CREATE TABLE t1(id INTEGER PRIMARY KEY, x TEXT);
INSERT INTO t1 VALUES
(1,'abcde'),
(2,'abc_'),
(3,'abc__'),
(4,'abc%'),
(5,'abc%%');
SELECT id FROM t1 WHERE x LIKE 'abc%%' ESCAPE '%';
} {4}
do_execsql_test 17.1 {
SELECT id FROM t1 WHERE x LIKE 'abc__' ESCAPE '_';
} {2}
# 2021-02-15 ticket c0aeea67d58ae0fd
#
do_execsql_test 17.1 {
SELECT 'x' LIKE '%' ESCAPE '_';
} {1}
# 2023-08-15 https://sqlite.org/forum/forumpost/925dc9f67804c540
#
reset_db
sqlite3_db_config db DEFENSIVE 1
db eval {PRAGMA trusted_schema=OFF}
do_execsql_test 18.0 {
CREATE TABLE t1(x INT, y TEXT);
INSERT INTO t1 VALUES(1,'abc'),(2,'ABC'),(3,'Abc');
CREATE VIEW t2 AS SELECT * FROM t1 WHERE y LIKE 'a%';
SELECT * FROM t2;
} {1 abc 2 ABC 3 Abc}
do_execsql_test 18.1 {
PRAGMA case_sensitive_like=OFF;
SELECT * FROM t2;
} {1 abc 2 ABC 3 Abc}
do_execsql_test 18.2 {
PRAGMA case_sensitive_like=ON;
SELECT * FROM t2;
} {1 abc}
finish_test