third_party/sqlite/sqlite-src-3080704/test/fts4unicode.test - chromium/src - Git at Google

 # 2012 May 25
 #
 # 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.
 #
 #*************************************************************************
 #
 # The tests in this file focus on testing the "unicode" FTS tokenizer.
 #

 set testdir [file dirname $argv0]
 source $testdir/tester.tcl
 ifcapable !fts3_unicode { finish_test ; return }
 set ::testprefix fts4unicode

 proc do_unicode_token_test {tn input res} {
   set input [string map {' ''} $input]
   uplevel [list do_execsql_test $tn "
     SELECT fts3_tokenizer_test('unicode61', 'remove_diacritics=0', '$input');
   " [list [list {*}$res]]]
 }

 proc do_unicode_token_test2 {tn input res} {
   set input [string map {' ''} $input]
   uplevel [list do_execsql_test $tn "
     SELECT fts3_tokenizer_test('unicode61', '$input');
   " [list [list {*}$res]]]
 }

 proc do_unicode_token_test3 {tn args} {
   set res   [lindex $args end]
   set sql "SELECT fts3_tokenizer_test('unicode61'"
   foreach a [lrange $args 0 end-1] {
     append sql ", '"
     append sql [string map {' ''} $a]
     append sql "'"
   }
   append sql ")"
   uplevel [list do_execsql_test $tn $sql [list [list {*}$res]]]
 }

 do_unicode_token_test 1.0 {a B c D} {0 a a 1 b B 2 c c 3 d D}

 do_unicode_token_test 1.1 "\uC4 \uD6 \uDC" \
     "0 \uE4 \uC4 1 \uF6 \uD6 2 \uFC \uDC"

 do_unicode_token_test 1.2 "x\uC4x x\uD6x x\uDCx" \
     "0 x\uE4x x\uC4x 1 x\uF6x x\uD6x 2 x\uFCx x\uDCx"

 # 0x00DF is a small "sharp s". 0x1E9E is a capital sharp s.
 do_unicode_token_test 1.3 "\uDF" "0 \uDF \uDF"
 do_unicode_token_test 1.4 "\u1E9E" "0 \uDF \u1E9E"

 do_unicode_token_test 1.5 "The quick brown fox" {
   0 the The 1 quick quick 2 brown brown 3 fox fox
 }
 do_unicode_token_test 1.6 "The\u00bfquick\u224ebrown\u2263fox" {
   0 the The 1 quick quick 2 brown brown 3 fox fox
 }

 do_unicode_token_test2 1.7  {a B c D} {0 a a 1 b B 2 c c 3 d D}
 do_unicode_token_test2 1.8  "\uC4 \uD6 \uDC" "0 a \uC4 1 o \uD6 2 u \uDC"

 do_unicode_token_test2 1.9  "x\uC4x x\uD6x x\uDCx" \
     "0 xax x\uC4x 1 xox x\uD6x 2 xux x\uDCx"

 # Check that diacritics are removed if remove_diacritics=1 is specified.
 # And that they do not break tokens.
 do_unicode_token_test2 1.10 "xx\u0301xx" "0 xxxx xx\u301xx"

 # Title-case mappings work
 do_unicode_token_test 1.11 "\u01c5" "0 \u01c6 \u01c5"

 #-------------------------------------------------------------------------
 #
 set docs [list {
   Enhance the INSERT syntax to allow multiple rows to be inserted via the
   VALUES clause.
 } {
   Enhance the CREATE VIRTUAL TABLE command to support the IF NOT EXISTS clause.
 } {
   Added the sqlite3_stricmp() interface as a counterpart to sqlite3_strnicmp().
 } {
   Added the sqlite3_db_readonly() interface.
 } {
   Added the SQLITE_FCNTL_PRAGMA file control, giving VFS implementations the
   ability to add new PRAGMA statements or to override built-in PRAGMAs.
 } {
   Queries of the form: "SELECT max(x), y FROM table" returns the value of y on
   the same row that contains the maximum x value.
 } {
   Added support for the FTS4 languageid option.
 } {
   Documented support for the FTS4 content option. This feature has actually
   been in the code since version 3.7.9 but is only now considered to be
   officially supported.
 } {
   Pending statements no longer block ROLLBACK. Instead, the pending statement
   will return SQLITE_ABORT upon next access after the ROLLBACK.
 } {
   Improvements to the handling of CSV inputs in the command-line shell
 } {
   Fix a bug introduced in version 3.7.10 that might cause a LEFT JOIN to be
   incorrectly converted into an INNER JOIN if the WHERE clause indexable terms
   connected by OR.
 }]

 set map(a) [list "\u00C4" "\u00E4"]  ; # LATIN LETTER A WITH DIAERESIS
 set map(e) [list "\u00CB" "\u00EB"]  ; # LATIN LETTER E WITH DIAERESIS
 set map(i) [list "\u00CF" "\u00EF"]  ; # LATIN LETTER I WITH DIAERESIS
 set map(o) [list "\u00D6" "\u00F6"]  ; # LATIN LETTER O WITH DIAERESIS
 set map(u) [list "\u00DC" "\u00FC"]  ; # LATIN LETTER U WITH DIAERESIS
 set map(y) [list "\u0178" "\u00FF"]  ; # LATIN LETTER Y WITH DIAERESIS
 set map(h) [list "\u1E26" "\u1E27"]  ; # LATIN LETTER H WITH DIAERESIS
 set map(w) [list "\u1E84" "\u1E85"]  ; # LATIN LETTER W WITH DIAERESIS
 set map(x) [list "\u1E8C" "\u1E8D"]  ; # LATIN LETTER X WITH DIAERESIS
 foreach k [array names map] {
   lappend mappings [string toupper $k] [lindex $map($k) 0]
   lappend mappings $k [lindex $map($k) 1]
 }
 proc mapdoc {doc} {
   set doc [regsub -all {[[:space:]]+} $doc " "]
   string map $::mappings [string trim $doc]
 }

 do_test 2.0 {
   execsql { CREATE VIRTUAL TABLE t2 USING fts4(tokenize=unicode61, x); }
   foreach doc $docs {
     set d [mapdoc $doc]
     execsql { INSERT INTO t2 VALUES($d) }
   }
 } {}

 do_test 2.1 {
   set q [mapdoc "row"]
   execsql { SELECT * FROM t2 WHERE t2 MATCH $q }
 } [list [mapdoc {
   Queries of the form: "SELECT max(x), y FROM table" returns the value of y on
   the same row that contains the maximum x value.
 }]]

 foreach {tn query snippet} {
   2 "row" {
      ...returns the value of y on the same [row] that contains
      the maximum x value.
   }
   3 "ROW" {
      ...returns the value of y on the same [row] that contains
      the maximum x value.
   }
   4 "rollback" {
      ...[ROLLBACK]. Instead, the pending statement
      will return SQLITE_ABORT upon next access after the [ROLLBACK].
   }
   5 "rOllback" {
      ...[ROLLBACK]. Instead, the pending statement
      will return SQLITE_ABORT upon next access after the [ROLLBACK].
   }
   6 "lang*" {
      Added support for the FTS4 [languageid] option.
   }
 } {
   do_test 2.$tn {
     set q [mapdoc $query]
     execsql { SELECT snippet(t2, '[', ']', '...') FROM t2 WHERE t2 MATCH $q }
   } [list [mapdoc $snippet]]
 }

 #-------------------------------------------------------------------------
 # Make sure the unicode61 tokenizer does not crash if it is passed a
 # NULL pointer.
 reset_db
 do_execsql_test 3.1 {
   CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61, x, y);
   INSERT INTO t1 VALUES(NULL, 'a b c');
 }

 do_execsql_test 3.2 {
   SELECT snippet(t1, '[', ']') FROM t1 WHERE t1 MATCH 'b'
 } {{a [b] c}}

 do_execsql_test 3.3 {
   BEGIN;
   DELETE FROM t1;
   INSERT INTO t1 VALUES('b b b b b b b b b b b', 'b b b b b b b b b b b b b');
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 SELECT * FROM t1;
   INSERT INTO t1 VALUES('a b c', NULL);
   INSERT INTO t1 VALUES('a x c', NULL);
   COMMIT;
 }

 do_execsql_test 3.4 {
   SELECT * FROM t1 WHERE t1 MATCH 'a b';
 } {{a b c} {}}

 #-------------------------------------------------------------------------
 #
 reset_db

 do_test 4.1 {
   set a "abc\uFFFEdef"
   set b "abc\uD800def"
   set c "\uFFFEdef"
   set d "\uD800def"
   execsql {
     CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61, x);
     INSERT INTO t1 VALUES($a);
     INSERT INTO t1 VALUES($b);
     INSERT INTO t1 VALUES($c);
     INSERT INTO t1 VALUES($d);
   }
 } {}

 do_test 4.2 {
   set a [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0x62}]
   set b [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0x62}]
   set c [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0x62}]
   set d [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0xBF 0x62}]
   execsql {
     INSERT INTO t1 VALUES($a);
     INSERT INTO t1 VALUES($b);
     INSERT INTO t1 VALUES($c);
     INSERT INTO t1 VALUES($d);
   }
 } {}

 do_test 4.3 {
   set a [binary format c* {0xF7 0xBF 0xBF 0xBF}]
   set b [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF}]
   set c [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF 0xBF}]
   set d [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0xBF}]
   execsql {
     INSERT INTO t1 VALUES($a);
     INSERT INTO t1 VALUES($b);
     INSERT INTO t1 VALUES($c);
     INSERT INTO t1 VALUES($d);
   }
 } {}

 #-------------------------------------------------------------------------

 do_unicode_token_test3 5.1 {tokenchars=} {
   sqlite3_reset sqlite3_column_int
 } {
   0 sqlite3 sqlite3
   1 reset reset
   2 sqlite3 sqlite3
   3 column column
   4 int int
 }

 do_unicode_token_test3 5.2 {tokenchars=_} {
   sqlite3_reset sqlite3_column_int
 } {
   0 sqlite3_reset sqlite3_reset
   1 sqlite3_column_int sqlite3_column_int
 }

 do_unicode_token_test3 5.3 {separators=xyz} {
   Laotianxhorseyrunszfast
 } {
   0 laotian Laotian
   1 horse horse
   2 runs runs
   3 fast fast
 }

 do_unicode_token_test3 5.4 {tokenchars=xyz} {
   Laotianxhorseyrunszfast
 } {
   0 laotianxhorseyrunszfast Laotianxhorseyrunszfast
 }

 do_unicode_token_test3 5.5 {tokenchars=_} {separators=zyx} {
   sqlite3_resetxsqlite3_column_intyhonda_phantom
 } {
   0 sqlite3_reset sqlite3_reset
   1 sqlite3_column_int sqlite3_column_int
   2 honda_phantom honda_phantom
 }

 do_unicode_token_test3 5.6 "separators=\u05D1" "abc\u05D1def" {
   0 abc abc 1 def def
 }

 do_unicode_token_test3 5.7                             \
   "tokenchars=\u2444\u2445"                            \
   "separators=\u05D0\u05D1\u05D2"                      \
   "\u2444fre\u2445sh\u05D0water\u05D2fish.\u2445timer" \
   [list                                                \
     0 \u2444fre\u2445sh \u2444fre\u2445sh              \
     1 water water                                      \
     2 fish fish                                        \
     3 \u2445timer \u2445timer                          \
   ]

 # Check that it is not possible to add a standalone diacritic codepoint
 # to either separators or tokenchars.
 do_unicode_token_test3 5.8 "separators=\u0301" \
   "hello\u0301world \u0301helloworld"          \
   "0 helloworld hello\u0301world 1 helloworld helloworld"

 do_unicode_token_test3 5.9 "tokenchars=\u0301" \
   "hello\u0301world \u0301helloworld"          \
   "0 helloworld hello\u0301world 1 helloworld helloworld"

 do_unicode_token_test3 5.10 "separators=\u0301" \
   "remove_diacritics=0"                        \
   "hello\u0301world \u0301helloworld"          \
   "0 hello\u0301world hello\u0301world 1 helloworld helloworld"

 do_unicode_token_test3 5.11 "tokenchars=\u0301" \
   "remove_diacritics=0"                         \
   "hello\u0301world \u0301helloworld"           \
   "0 hello\u0301world hello\u0301world 1 helloworld helloworld"


 #-------------------------------------------------------------------------

 proc do_tokenize {tokenizer txt} {
   set res [list]
   foreach {a b c} [db one {SELECT fts3_tokenizer_test($tokenizer, $txt)}] {
     lappend res $b
   }
   set res
 }

 # Argument $lCodepoint must be a list of codepoints (integers) that
 # correspond to whitespace characters. This command creates a string
 # $W from the codepoints, then tokenizes "${W}hello{$W}world${W}"
 # using tokenizer $tokenizer. The test passes if the tokenizer successfully
 # extracts the two 5 character tokens.
 #
 proc do_isspace_test {tn tokenizer lCp} {
   set whitespace [format [string repeat %c [llength $lCp]] {*}$lCp]
   set txt "${whitespace}hello${whitespace}world${whitespace}"
   uplevel [list do_test $tn [list do_tokenize $tokenizer $txt] {hello world}]
 }

 set tokenizers [list unicode61]
 ifcapable icu { lappend tokenizers icu }

 # Some tests to check that the tokenizers can both identify white-space
 # codepoints. All codepoints tested below are of type "Zs" in the
 # UnicodeData.txt file.
 foreach T $tokenizers {
   do_isspace_test 6.$T.1 $T    32
   do_isspace_test 6.$T.2 $T    160
   do_isspace_test 6.$T.3 $T    5760
   do_isspace_test 6.$T.4 $T    6158
   do_isspace_test 6.$T.5 $T    8192
   do_isspace_test 6.$T.6 $T    8193
   do_isspace_test 6.$T.7 $T    8194
   do_isspace_test 6.$T.8 $T    8195
   do_isspace_test 6.$T.9 $T    8196
   do_isspace_test 6.$T.10 $T    8197
   do_isspace_test 6.$T.11 $T    8198
   do_isspace_test 6.$T.12 $T    8199
   do_isspace_test 6.$T.13 $T    8200
   do_isspace_test 6.$T.14 $T    8201
   do_isspace_test 6.$T.15 $T    8202
   do_isspace_test 6.$T.16 $T    8239
   do_isspace_test 6.$T.17 $T    8287
   do_isspace_test 6.$T.18 $T   12288

   do_isspace_test 6.$T.19 $T   {32 160 5760 6158}
   do_isspace_test 6.$T.20 $T   {8192 8193 8194 8195}
   do_isspace_test 6.$T.21 $T   {8196 8197 8198 8199}
   do_isspace_test 6.$T.22 $T   {8200 8201 8202 8239}
   do_isspace_test 6.$T.23 $T   {8287 12288}
 }

 #-------------------------------------------------------------------------
 # Test that the private use ranges are treated as alphanumeric.
 #
 foreach {tn1 c} {
   1 \ue000 2 \ue001 3 \uf000 4 \uf8fe 5 \uf8ff
 } {
   foreach {tn2 config res} {
     1 ""             "0 hello*world hello*world"
     2 "separators=*" "0 hello hello 1 world world"
   } {
     set config [string map [list * $c] $config]
     set input  [string map [list * $c] "hello*world"]
     set output [string map [list * $c] $res]
     do_unicode_token_test3 7.$tn1.$tn2 {*}$config $input $output
   }
 }

 #-------------------------------------------------------------------------
 # Cursory test of remove_diacritics=0.
 #
 # 00C4;LATIN CAPITAL LETTER A WITH DIAERESIS
 # 00D6;LATIN CAPITAL LETTER O WITH DIAERESIS
 # 00E4;LATIN SMALL LETTER A WITH DIAERESIS
 # 00F6;LATIN SMALL LETTER O WITH DIAERESIS
 #
 do_execsql_test 8.1.1 "
   CREATE VIRTUAL TABLE t3 USING fts4(tokenize=unicode61 'remove_diacritics=1');
   INSERT INTO t3 VALUES('o');
   INSERT INTO t3 VALUES('a');
   INSERT INTO t3 VALUES('O');
   INSERT INTO t3 VALUES('A');
   INSERT INTO t3 VALUES('\xD6');
   INSERT INTO t3 VALUES('\xC4');
   INSERT INTO t3 VALUES('\xF6');
   INSERT INTO t3 VALUES('\xE4');
 "
 do_execsql_test 8.1.2 {
   SELECT rowid FROM t3 WHERE t3 MATCH 'o';
 } {1 3 5 7}
 do_execsql_test 8.1.3 {
   SELECT rowid FROM t3 WHERE t3 MATCH 'a';
 } {2 4 6 8}
 do_execsql_test 8.2.1 {
   CREATE VIRTUAL TABLE t4 USING fts4(tokenize=unicode61 "remove_diacritics=0");
   INSERT INTO t4 SELECT * FROM t3;
 }
 do_execsql_test 8.2.2 {
   SELECT rowid FROM t4 WHERE t4 MATCH 'o';
 } {1 3}
 do_execsql_test 8.2.3 {
   SELECT rowid FROM t4 WHERE t4 MATCH 'a';
 } {2 4}

 #-------------------------------------------------------------------------
 #
 foreach {tn sql} {
   1 {
     CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 [tokenchars= .]);
     CREATE VIRTUAL TABLE t6 USING fts4(
         tokenize=unicode61 [tokenchars=="] "tokenchars=[]");
     CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 [separators=x\xC4]);
   }
   2 {
     CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 "tokenchars= .");
     CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 "tokenchars=[=""]");
     CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 "separators=x\xC4");
   }
   3 {
     CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 'tokenchars= .');
     CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 'tokenchars=="[]');
     CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 'separators=x\xC4');
   }
   4 {
     CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 `tokenchars= .`);
     CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 `tokenchars=[="]`);
     CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 `separators=x\xC4`);
   }
 } {
   do_execsql_test 9.$tn.0 {
     DROP TABLE IF EXISTS t5;
     DROP TABLE IF EXISTS t5aux;
     DROP TABLE IF EXISTS t6;
     DROP TABLE IF EXISTS t6aux;
     DROP TABLE IF EXISTS t7;
     DROP TABLE IF EXISTS t7aux;
   }
   do_execsql_test 9.$tn.1 $sql

   do_execsql_test 9.$tn.2 {
     CREATE VIRTUAL TABLE t5aux USING fts4aux(t5);
     INSERT INTO t5 VALUES('one two three/four.five.six');
     SELECT * FROM t5aux;
   } {
     four.five.six   * 1 1 four.five.six   0 1 1
     {one two three} * 1 1 {one two three} 0 1 1
   }

   do_execsql_test 9.$tn.3 {
     CREATE VIRTUAL TABLE t6aux USING fts4aux(t6);
     INSERT INTO t6 VALUES('alpha=beta"gamma/delta[epsilon]zeta');
     SELECT * FROM t6aux;
   } {
     {alpha=beta"gamma}   * 1 1 {alpha=beta"gamma} 0 1 1
     {delta[epsilon]zeta} * 1 1 {delta[epsilon]zeta} 0 1 1
   }

   do_execsql_test 9.$tn.4 {
     CREATE VIRTUAL TABLE t7aux USING fts4aux(t7);
     INSERT INTO t7 VALUES('alephxbeth\xC4gimel');
     SELECT * FROM t7aux;
   } {
     aleph * 1 1 aleph 0 1 1
     beth  * 1 1 beth  0 1 1
     gimel * 1 1 gimel 0 1 1
   }
 }

 # Check that multiple options are handled correctly.
 #
 do_execsql_test 10.1 {
   DROP TABLE IF EXISTS t1;
   CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61
     "tokenchars=xyz" "tokenchars=.=" "separators=.=" "separators=xy"
     "separators=a" "separators=a" "tokenchars=a" "tokenchars=a"
   );

   INSERT INTO t1 VALUES('oneatwoxthreeyfour');
   INSERT INTO t1 VALUES('a.single=word');
   CREATE VIRTUAL TABLE t1aux USING fts4aux(t1);
   SELECT * FROM t1aux;
 } {
   .single=word * 1 1 .single=word 0 1 1
   four         * 1 1 four         0 1 1
   one          * 1 1 one          0 1 1
   three        * 1 1 three        0 1 1
   two          * 1 1 two          0 1 1
 }

 # Test that case folding happens after tokenization, not before.
 #
 do_execsql_test 10.2 {
   DROP TABLE IF EXISTS t2;
   CREATE VIRTUAL TABLE t2 USING fts4(tokenize=unicode61 "separators=aB");
   INSERT INTO t2 VALUES('oneatwoBthree');
   INSERT INTO t2 VALUES('onebtwoAthree');
   CREATE VIRTUAL TABLE t2aux USING fts4aux(t2);
   SELECT * FROM t2aux;
 } {
   one           * 1 1 one           0 1 1
   onebtwoathree * 1 1 onebtwoathree 0 1 1
   three         * 1 1 three         0 1 1
   two           * 1 1 two           0 1 1
 }

 # Test that the tokenchars and separators options work with the
 # fts3tokenize table.
 #
 do_execsql_test 11.1 {
   CREATE VIRTUAL TABLE ft1 USING fts3tokenize(
     "unicode61", "tokenchars=@.", "separators=1234567890"
   );
   SELECT token FROM ft1 WHERE input = 'berlin@street123sydney.road';
 } {
   berlin@street sydney.road
 }

 finish_test
	# 2012 May 25
	#
	# 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.
	#
	#*************************************************************************
	#
	# The tests in this file focus on testing the "unicode" FTS tokenizer.
	#

	set testdir [file dirname $argv0]
	source $testdir/tester.tcl
	ifcapable !fts3_unicode { finish_test ; return }
	set ::testprefix fts4unicode

	proc do_unicode_token_test {tn input res} {
	set input [string map {' ''} $input]
	uplevel [list do_execsql_test $tn "
	SELECT fts3_tokenizer_test('unicode61', 'remove_diacritics=0', '$input');
	" [list [list {*}$res]]]
	}

	proc do_unicode_token_test2 {tn input res} {
	set input [string map {' ''} $input]
	uplevel [list do_execsql_test $tn "
	SELECT fts3_tokenizer_test('unicode61', '$input');
	" [list [list {*}$res]]]
	}

	proc do_unicode_token_test3 {tn args} {
	set res [lindex $args end]
	set sql "SELECT fts3_tokenizer_test('unicode61'"
	foreach a [lrange $args 0 end-1] {
	append sql ", '"
	append sql [string map {' ''} $a]
	append sql "'"
	}
	append sql ")"
	uplevel [list do_execsql_test $tn $sql [list [list {*}$res]]]
	}

	do_unicode_token_test 1.0 {a B c D} {0 a a 1 b B 2 c c 3 d D}

	do_unicode_token_test 1.1 "\uC4 \uD6 \uDC" \
	"0 \uE4 \uC4 1 \uF6 \uD6 2 \uFC \uDC"

	do_unicode_token_test 1.2 "x\uC4x x\uD6x x\uDCx" \
	"0 x\uE4x x\uC4x 1 x\uF6x x\uD6x 2 x\uFCx x\uDCx"

	# 0x00DF is a small "sharp s". 0x1E9E is a capital sharp s.
	do_unicode_token_test 1.3 "\uDF" "0 \uDF \uDF"
	do_unicode_token_test 1.4 "\u1E9E" "0 \uDF \u1E9E"

	do_unicode_token_test 1.5 "The quick brown fox" {
	0 the The 1 quick quick 2 brown brown 3 fox fox
	}
	do_unicode_token_test 1.6 "The\u00bfquick\u224ebrown\u2263fox" {
	0 the The 1 quick quick 2 brown brown 3 fox fox
	}

	do_unicode_token_test2 1.7 {a B c D} {0 a a 1 b B 2 c c 3 d D}
	do_unicode_token_test2 1.8 "\uC4 \uD6 \uDC" "0 a \uC4 1 o \uD6 2 u \uDC"

	do_unicode_token_test2 1.9 "x\uC4x x\uD6x x\uDCx" \
	"0 xax x\uC4x 1 xox x\uD6x 2 xux x\uDCx"

	# Check that diacritics are removed if remove_diacritics=1 is specified.
	# And that they do not break tokens.
	do_unicode_token_test2 1.10 "xx\u0301xx" "0 xxxx xx\u301xx"

	# Title-case mappings work
	do_unicode_token_test 1.11 "\u01c5" "0 \u01c6 \u01c5"

	#-------------------------------------------------------------------------
	#
	set docs [list {
	Enhance the INSERT syntax to allow multiple rows to be inserted via the
	VALUES clause.
	} {
	Enhance the CREATE VIRTUAL TABLE command to support the IF NOT EXISTS clause.
	} {
	Added the sqlite3_stricmp() interface as a counterpart to sqlite3_strnicmp().
	} {
	Added the sqlite3_db_readonly() interface.
	} {
	Added the SQLITE_FCNTL_PRAGMA file control, giving VFS implementations the
	ability to add new PRAGMA statements or to override built-in PRAGMAs.
	} {
	Queries of the form: "SELECT max(x), y FROM table" returns the value of y on
	the same row that contains the maximum x value.
	} {
	Added support for the FTS4 languageid option.
	} {
	Documented support for the FTS4 content option. This feature has actually
	been in the code since version 3.7.9 but is only now considered to be
	officially supported.
	} {
	Pending statements no longer block ROLLBACK. Instead, the pending statement
	will return SQLITE_ABORT upon next access after the ROLLBACK.
	} {
	Improvements to the handling of CSV inputs in the command-line shell
	} {
	Fix a bug introduced in version 3.7.10 that might cause a LEFT JOIN to be
	incorrectly converted into an INNER JOIN if the WHERE clause indexable terms
	connected by OR.
	}]

	set map(a) [list "\u00C4" "\u00E4"] ; # LATIN LETTER A WITH DIAERESIS
	set map(e) [list "\u00CB" "\u00EB"] ; # LATIN LETTER E WITH DIAERESIS
	set map(i) [list "\u00CF" "\u00EF"] ; # LATIN LETTER I WITH DIAERESIS
	set map(o) [list "\u00D6" "\u00F6"] ; # LATIN LETTER O WITH DIAERESIS
	set map(u) [list "\u00DC" "\u00FC"] ; # LATIN LETTER U WITH DIAERESIS
	set map(y) [list "\u0178" "\u00FF"] ; # LATIN LETTER Y WITH DIAERESIS
	set map(h) [list "\u1E26" "\u1E27"] ; # LATIN LETTER H WITH DIAERESIS
	set map(w) [list "\u1E84" "\u1E85"] ; # LATIN LETTER W WITH DIAERESIS
	set map(x) [list "\u1E8C" "\u1E8D"] ; # LATIN LETTER X WITH DIAERESIS
	foreach k [array names map] {
	lappend mappings [string toupper $k] [lindex $map($k) 0]
	lappend mappings $k [lindex $map($k) 1]
	}
	proc mapdoc {doc} {
	set doc [regsub -all {[[:space:]]+} $doc " "]
	string map $::mappings [string trim $doc]
	}

	do_test 2.0 {
	execsql { CREATE VIRTUAL TABLE t2 USING fts4(tokenize=unicode61, x); }
	foreach doc $docs {
	set d [mapdoc $doc]
	execsql { INSERT INTO t2 VALUES($d) }
	}
	} {}

	do_test 2.1 {
	set q [mapdoc "row"]
	execsql { SELECT * FROM t2 WHERE t2 MATCH $q }
	} [list [mapdoc {
	Queries of the form: "SELECT max(x), y FROM table" returns the value of y on
	the same row that contains the maximum x value.
	}]]

	foreach {tn query snippet} {
	2 "row" {
	...returns the value of y on the same [row] that contains
	the maximum x value.
	}
	3 "ROW" {
	...returns the value of y on the same [row] that contains
	the maximum x value.
	}
	4 "rollback" {
	...[ROLLBACK]. Instead, the pending statement
	will return SQLITE_ABORT upon next access after the [ROLLBACK].
	}
	5 "rOllback" {
	...[ROLLBACK]. Instead, the pending statement
	will return SQLITE_ABORT upon next access after the [ROLLBACK].
	}
	6 "lang*" {
	Added support for the FTS4 [languageid] option.
	}
	} {
	do_test 2.$tn {
	set q [mapdoc $query]
	execsql { SELECT snippet(t2, '[', ']', '...') FROM t2 WHERE t2 MATCH $q }
	} [list [mapdoc $snippet]]
	}

	#-------------------------------------------------------------------------
	# Make sure the unicode61 tokenizer does not crash if it is passed a
	# NULL pointer.
	reset_db
	do_execsql_test 3.1 {
	CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61, x, y);
	INSERT INTO t1 VALUES(NULL, 'a b c');
	}

	do_execsql_test 3.2 {
	SELECT snippet(t1, '[', ']') FROM t1 WHERE t1 MATCH 'b'
	} {{a [b] c}}

	do_execsql_test 3.3 {
	BEGIN;
	DELETE FROM t1;
	INSERT INTO t1 VALUES('b b b b b b b b b b b', 'b b b b b b b b b b b b b');
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 SELECT * FROM t1;
	INSERT INTO t1 VALUES('a b c', NULL);
	INSERT INTO t1 VALUES('a x c', NULL);
	COMMIT;
	}

	do_execsql_test 3.4 {
	SELECT * FROM t1 WHERE t1 MATCH 'a b';
	} {{a b c} {}}

	#-------------------------------------------------------------------------
	#
	reset_db

	do_test 4.1 {
	set a "abc\uFFFEdef"
	set b "abc\uD800def"
	set c "\uFFFEdef"
	set d "\uD800def"
	execsql {
	CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61, x);
	INSERT INTO t1 VALUES($a);
	INSERT INTO t1 VALUES($b);
	INSERT INTO t1 VALUES($c);
	INSERT INTO t1 VALUES($d);
	}
	} {}

	do_test 4.2 {
	set a [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0x62}]
	set b [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0x62}]
	set c [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0x62}]
	set d [binary format c* {0x61 0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0xBF 0x62}]
	execsql {
	INSERT INTO t1 VALUES($a);
	INSERT INTO t1 VALUES($b);
	INSERT INTO t1 VALUES($c);
	INSERT INTO t1 VALUES($d);
	}
	} {}

	do_test 4.3 {
	set a [binary format c* {0xF7 0xBF 0xBF 0xBF}]
	set b [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF}]
	set c [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF 0xBF}]
	set d [binary format c* {0xF7 0xBF 0xBF 0xBF 0xBF 0xBF 0xBF}]
	execsql {
	INSERT INTO t1 VALUES($a);
	INSERT INTO t1 VALUES($b);
	INSERT INTO t1 VALUES($c);
	INSERT INTO t1 VALUES($d);
	}
	} {}

	#-------------------------------------------------------------------------

	do_unicode_token_test3 5.1 {tokenchars=} {
	sqlite3_reset sqlite3_column_int
	} {
	0 sqlite3 sqlite3
	1 reset reset
	2 sqlite3 sqlite3
	3 column column
	4 int int
	}

	do_unicode_token_test3 5.2 {tokenchars=_} {
	sqlite3_reset sqlite3_column_int
	} {
	0 sqlite3_reset sqlite3_reset
	1 sqlite3_column_int sqlite3_column_int
	}

	do_unicode_token_test3 5.3 {separators=xyz} {
	Laotianxhorseyrunszfast
	} {
	0 laotian Laotian
	1 horse horse
	2 runs runs
	3 fast fast
	}

	do_unicode_token_test3 5.4 {tokenchars=xyz} {
	Laotianxhorseyrunszfast
	} {
	0 laotianxhorseyrunszfast Laotianxhorseyrunszfast
	}

	do_unicode_token_test3 5.5 {tokenchars=_} {separators=zyx} {
	sqlite3_resetxsqlite3_column_intyhonda_phantom
	} {
	0 sqlite3_reset sqlite3_reset
	1 sqlite3_column_int sqlite3_column_int
	2 honda_phantom honda_phantom
	}

	do_unicode_token_test3 5.6 "separators=\u05D1" "abc\u05D1def" {
	0 abc abc 1 def def
	}

	do_unicode_token_test3 5.7 \
	"tokenchars=\u2444\u2445" \
	"separators=\u05D0\u05D1\u05D2" \
	"\u2444fre\u2445sh\u05D0water\u05D2fish.\u2445timer" \
	[list \
	0 \u2444fre\u2445sh \u2444fre\u2445sh \
	1 water water \
	2 fish fish \
	3 \u2445timer \u2445timer \
	]

	# Check that it is not possible to add a standalone diacritic codepoint
	# to either separators or tokenchars.
	do_unicode_token_test3 5.8 "separators=\u0301" \
	"hello\u0301world \u0301helloworld" \
	"0 helloworld hello\u0301world 1 helloworld helloworld"

	do_unicode_token_test3 5.9 "tokenchars=\u0301" \
	"hello\u0301world \u0301helloworld" \
	"0 helloworld hello\u0301world 1 helloworld helloworld"

	do_unicode_token_test3 5.10 "separators=\u0301" \
	"remove_diacritics=0" \
	"hello\u0301world \u0301helloworld" \
	"0 hello\u0301world hello\u0301world 1 helloworld helloworld"

	do_unicode_token_test3 5.11 "tokenchars=\u0301" \
	"remove_diacritics=0" \
	"hello\u0301world \u0301helloworld" \
	"0 hello\u0301world hello\u0301world 1 helloworld helloworld"


	#-------------------------------------------------------------------------

	proc do_tokenize {tokenizer txt} {
	set res [list]
	foreach {a b c} [db one {SELECT fts3_tokenizer_test($tokenizer, $txt)}] {
	lappend res $b
	}
	set res
	}

	# Argument $lCodepoint must be a list of codepoints (integers) that
	# correspond to whitespace characters. This command creates a string
	# $W from the codepoints, then tokenizes "${W}hello{$W}world${W}"
	# using tokenizer $tokenizer. The test passes if the tokenizer successfully
	# extracts the two 5 character tokens.
	#
	proc do_isspace_test {tn tokenizer lCp} {
	set whitespace [format [string repeat %c [llength $lCp]] {*}$lCp]
	set txt "${whitespace}hello${whitespace}world${whitespace}"
	uplevel [list do_test $tn [list do_tokenize $tokenizer $txt] {hello world}]
	}

	set tokenizers [list unicode61]
	ifcapable icu { lappend tokenizers icu }

	# Some tests to check that the tokenizers can both identify white-space
	# codepoints. All codepoints tested below are of type "Zs" in the
	# UnicodeData.txt file.
	foreach T $tokenizers {
	do_isspace_test 6.$T.1 $T 32
	do_isspace_test 6.$T.2 $T 160
	do_isspace_test 6.$T.3 $T 5760
	do_isspace_test 6.$T.4 $T 6158
	do_isspace_test 6.$T.5 $T 8192
	do_isspace_test 6.$T.6 $T 8193
	do_isspace_test 6.$T.7 $T 8194
	do_isspace_test 6.$T.8 $T 8195
	do_isspace_test 6.$T.9 $T 8196
	do_isspace_test 6.$T.10 $T 8197
	do_isspace_test 6.$T.11 $T 8198
	do_isspace_test 6.$T.12 $T 8199
	do_isspace_test 6.$T.13 $T 8200
	do_isspace_test 6.$T.14 $T 8201
	do_isspace_test 6.$T.15 $T 8202
	do_isspace_test 6.$T.16 $T 8239
	do_isspace_test 6.$T.17 $T 8287
	do_isspace_test 6.$T.18 $T 12288

	do_isspace_test 6.$T.19 $T {32 160 5760 6158}
	do_isspace_test 6.$T.20 $T {8192 8193 8194 8195}
	do_isspace_test 6.$T.21 $T {8196 8197 8198 8199}
	do_isspace_test 6.$T.22 $T {8200 8201 8202 8239}
	do_isspace_test 6.$T.23 $T {8287 12288}
	}

	#-------------------------------------------------------------------------
	# Test that the private use ranges are treated as alphanumeric.
	#
	foreach {tn1 c} {
	1 \ue000 2 \ue001 3 \uf000 4 \uf8fe 5 \uf8ff
	} {
	foreach {tn2 config res} {
	1 "" "0 helloworld helloworld"
	2 "separators=*" "0 hello hello 1 world world"
	} {
	set config [string map [list * $c] $config]
	set input [string map [list * $c] "hello*world"]
	set output [string map [list * $c] $res]
	do_unicode_token_test3 7.$tn1.$tn2 {*}$config $input $output
	}
	}

	#-------------------------------------------------------------------------
	# Cursory test of remove_diacritics=0.
	#
	# 00C4;LATIN CAPITAL LETTER A WITH DIAERESIS
	# 00D6;LATIN CAPITAL LETTER O WITH DIAERESIS
	# 00E4;LATIN SMALL LETTER A WITH DIAERESIS
	# 00F6;LATIN SMALL LETTER O WITH DIAERESIS
	#
	do_execsql_test 8.1.1 "
	CREATE VIRTUAL TABLE t3 USING fts4(tokenize=unicode61 'remove_diacritics=1');
	INSERT INTO t3 VALUES('o');
	INSERT INTO t3 VALUES('a');
	INSERT INTO t3 VALUES('O');
	INSERT INTO t3 VALUES('A');
	INSERT INTO t3 VALUES('\xD6');
	INSERT INTO t3 VALUES('\xC4');
	INSERT INTO t3 VALUES('\xF6');
	INSERT INTO t3 VALUES('\xE4');
	"
	do_execsql_test 8.1.2 {
	SELECT rowid FROM t3 WHERE t3 MATCH 'o';
	} {1 3 5 7}
	do_execsql_test 8.1.3 {
	SELECT rowid FROM t3 WHERE t3 MATCH 'a';
	} {2 4 6 8}
	do_execsql_test 8.2.1 {
	CREATE VIRTUAL TABLE t4 USING fts4(tokenize=unicode61 "remove_diacritics=0");
	INSERT INTO t4 SELECT * FROM t3;
	}
	do_execsql_test 8.2.2 {
	SELECT rowid FROM t4 WHERE t4 MATCH 'o';
	} {1 3}
	do_execsql_test 8.2.3 {
	SELECT rowid FROM t4 WHERE t4 MATCH 'a';
	} {2 4}

	#-------------------------------------------------------------------------
	#
	foreach {tn sql} {
	1 {
	CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 [tokenchars= .]);
	CREATE VIRTUAL TABLE t6 USING fts4(
	tokenize=unicode61 [tokenchars=="] "tokenchars=[]");
	CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 [separators=x\xC4]);
	}
	2 {
	CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 "tokenchars= .");
	CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 "tokenchars=[=""]");
	CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 "separators=x\xC4");
	}
	3 {
	CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 'tokenchars= .');
	CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 'tokenchars=="[]');
	CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 'separators=x\xC4');
	}
	4 {
	CREATE VIRTUAL TABLE t5 USING fts4(tokenize=unicode61 `tokenchars= .`);
	CREATE VIRTUAL TABLE t6 USING fts4(tokenize=unicode61 `tokenchars=[="]`);
	CREATE VIRTUAL TABLE t7 USING fts4(tokenize=unicode61 `separators=x\xC4`);
	}
	} {
	do_execsql_test 9.$tn.0 {
	DROP TABLE IF EXISTS t5;
	DROP TABLE IF EXISTS t5aux;
	DROP TABLE IF EXISTS t6;
	DROP TABLE IF EXISTS t6aux;
	DROP TABLE IF EXISTS t7;
	DROP TABLE IF EXISTS t7aux;
	}
	do_execsql_test 9.$tn.1 $sql

	do_execsql_test 9.$tn.2 {
	CREATE VIRTUAL TABLE t5aux USING fts4aux(t5);
	INSERT INTO t5 VALUES('one two three/four.five.six');
	SELECT * FROM t5aux;
	} {
	four.five.six * 1 1 four.five.six 0 1 1
	{one two three} * 1 1 {one two three} 0 1 1
	}

	do_execsql_test 9.$tn.3 {
	CREATE VIRTUAL TABLE t6aux USING fts4aux(t6);
	INSERT INTO t6 VALUES('alpha=beta"gamma/delta[epsilon]zeta');
	SELECT * FROM t6aux;
	} {
	{alpha=beta"gamma} * 1 1 {alpha=beta"gamma} 0 1 1
	{delta[epsilon]zeta} * 1 1 {delta[epsilon]zeta} 0 1 1
	}

	do_execsql_test 9.$tn.4 {
	CREATE VIRTUAL TABLE t7aux USING fts4aux(t7);
	INSERT INTO t7 VALUES('alephxbeth\xC4gimel');
	SELECT * FROM t7aux;
	} {
	aleph * 1 1 aleph 0 1 1
	beth * 1 1 beth 0 1 1
	gimel * 1 1 gimel 0 1 1
	}
	}

	# Check that multiple options are handled correctly.
	#
	do_execsql_test 10.1 {
	DROP TABLE IF EXISTS t1;
	CREATE VIRTUAL TABLE t1 USING fts4(tokenize=unicode61
	"tokenchars=xyz" "tokenchars=.=" "separators=.=" "separators=xy"
	"separators=a" "separators=a" "tokenchars=a" "tokenchars=a"
	);

	INSERT INTO t1 VALUES('oneatwoxthreeyfour');
	INSERT INTO t1 VALUES('a.single=word');
	CREATE VIRTUAL TABLE t1aux USING fts4aux(t1);
	SELECT * FROM t1aux;
	} {
	.single=word * 1 1 .single=word 0 1 1
	four * 1 1 four 0 1 1
	one * 1 1 one 0 1 1
	three * 1 1 three 0 1 1
	two * 1 1 two 0 1 1
	}

	# Test that case folding happens after tokenization, not before.
	#
	do_execsql_test 10.2 {
	DROP TABLE IF EXISTS t2;
	CREATE VIRTUAL TABLE t2 USING fts4(tokenize=unicode61 "separators=aB");
	INSERT INTO t2 VALUES('oneatwoBthree');
	INSERT INTO t2 VALUES('onebtwoAthree');
	CREATE VIRTUAL TABLE t2aux USING fts4aux(t2);
	SELECT * FROM t2aux;
	} {
	one * 1 1 one 0 1 1
	onebtwoathree * 1 1 onebtwoathree 0 1 1
	three * 1 1 three 0 1 1
	two * 1 1 two 0 1 1
	}

	# Test that the tokenchars and separators options work with the
	# fts3tokenize table.
	#
	do_execsql_test 11.1 {
	CREATE VIRTUAL TABLE ft1 USING fts3tokenize(
	"unicode61", "tokenchars=@.", "separators=1234567890"
	);
	SELECT token FROM ft1 WHERE input = 'berlin@street123sydney.road';
	} {
	berlin@street sydney.road
	}

	finish_test