third_party/sqlite/sqlite-src-3280000/ext/fts5/test/fts5synonym.test - chromium/src - Git at Google

 # 2014 Dec 20
 #
 # 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.
 #
 #***********************************************************************
 #
 # Tests focusing on custom tokenizers that support synonyms.
 #

 source [file join [file dirname [info script]] fts5_common.tcl]
 set testprefix fts5synonym

 # If SQLITE_ENABLE_FTS5 is defined, omit this file.
 ifcapable !fts5 {
   finish_test
   return
 }

 proc tcl_create {args} { return "tcl_tokenize" }

 foreach_detail_mode $testprefix {

 #-------------------------------------------------------------------------
 # Warm body test for the code in fts5_tcl.c.
 #
 fts5_tclnum_register db
 do_execsql_test 1.0 {
   CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = "tclnum document", detail=%DETAIL%);
   INSERT INTO ft VALUES('abc def ghi');
   INSERT INTO ft VALUES('jkl mno pqr');
   SELECT rowid, x FROM ft WHERE ft MATCH 'def';
   SELECT x, rowid FROM ft WHERE ft MATCH 'pqr';
 } {1 {abc def ghi} {jkl mno pqr} 2}

 #-------------------------------------------------------------------------
 # Test a tokenizer that supports synonyms by adding extra entries to the
 # FTS index.
 #
 reset_db
 fts5_tclnum_register db

 do_execsql_test 2.0 {
   CREATE VIRTUAL TABLE ft USING fts5(
       x, tokenize = "tclnum document", detail=%DETAIL%
   );
   INSERT INTO ft VALUES('one two three');
   INSERT INTO ft VALUES('four five six');
   INSERT INTO ft VALUES('eight nine ten');
 } {}

 foreach {tn expr res} {
   1 "3" 1
   2 "eight OR 8 OR 5" {2 3}
   3 "10" {}
   4 "1*" {1}
   5 "1 + 2" {1}
 } {
   if {![fts5_expr_ok $expr ft]} continue
   do_execsql_test 2.1.$tn {
     SELECT rowid FROM ft WHERE ft MATCH $expr
   } $res
 }

 #-------------------------------------------------------------------------
 # Test some broken tokenizers:
 #
 #   3.1.*: A tokenizer that declares the very first token to be colocated.
 #
 #   3.2.*: A tokenizer that reports two identical tokens at the same position.
 #          This is allowed.
 #
 reset_db
 sqlite3_fts5_create_tokenizer db tcl tcl_create
 proc tcl_tokenize {tflags text} {
   set bColo 1
   foreach {w iStart iEnd} [fts5_tokenize_split $text] {
     if {$bColo} {
       sqlite3_fts5_token -colo $w $iStart $iEnd
       set bColo 0
     } {
       sqlite3_fts5_token $w $iStart $iEnd
     }
   }
 }
 do_execsql_test 3.1.0 {
   CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = tcl);
   INSERT INTO ft VALUES('one two three');
   CREATE VIRTUAL TABLE vv USING fts5vocab(ft, row);
   SELECT * FROM vv;
 } {
   one 1 1   three 1 1   two 1 1
 }

 do_execsql_test 3.1.1 {
   INSERT INTO ft(ft) VALUES('integrity-check');
 } {}

 proc tcl_tokenize {tflags text} {
   foreach {w iStart iEnd} [fts5_tokenize_split $text] {
     sqlite3_fts5_token $w $iStart $iEnd
   }
 }

 do_execsql_test 3.1.2 {
   SELECT rowid FROM ft WHERE ft MATCH 'one two three'
 } {1}

 reset_db
 sqlite3_fts5_create_tokenizer db tcl tcl_create
 proc tcl_tokenize {tflags text} {
   foreach {w iStart iEnd} [fts5_tokenize_split $text] {
     sqlite3_fts5_token $w $iStart $iEnd
     sqlite3_fts5_token -colo $w $iStart $iEnd
   }
 }
 do_execsql_test 3.2.0 {
   CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = tcl);
   INSERT INTO ft VALUES('one one two three');
   CREATE VIRTUAL TABLE vv USING fts5vocab(ft, row);
   SELECT * FROM vv;
 } {
   one 1 4   three 1 2   two 1 2
 }
 do_execsql_test 3.2.1 {
   SELECT rowid FROM ft WHERE ft MATCH 'one';
 } {1}
 do_execsql_test 3.2.2 {
   SELECT rowid FROM ft WHERE ft MATCH 'one two three';
 } {1}
 do_execsql_test 3.2.3 {
   SELECT rowid FROM ft WHERE ft MATCH 'one + one + two + three';
 } {1}
 do_execsql_test 3.2.4 {
   SELECT rowid FROM ft WHERE ft MATCH 'one two two three';
 } {1}
 do_execsql_test 3.2.5 {
   SELECT rowid FROM ft WHERE ft MATCH 'one + two + two + three';
 } {}

 #-------------------------------------------------------------------------
 # Check that expressions with synonyms can be parsed and executed.
 #
 reset_db
 fts5_tclnum_register db

 foreach {tn expr res} {
   1  {abc}                           {"abc"}
   2  {one}                           {"one"|"i"|"1"}
   3  {3}                             {"3"|"iii"|"three"}
   4  {3*}                            {"3" *}
 } {
   do_execsql_test 4.1.$tn {
     SELECT fts5_expr($expr, 'tokenize=tclnum')
   } [list $res]
 }

 do_execsql_test 4.2.1 {
   CREATE VIRTUAL TABLE xx USING fts5(x, tokenize=tclnum, detail=%DETAIL%);
   INSERT INTO xx VALUES('one two');
   INSERT INTO xx VALUES('three four');
 }

 do_execsql_test 4.2.2 {
   SELECT rowid FROM xx WHERE xx MATCH '2'
 } {1}

 do_execsql_test 4.2.3 {
   SELECT rowid FROM xx WHERE xx MATCH '3'
 } {2}

 do_test 5.0 {
   execsql {
     CREATE VIRTUAL TABLE t1 USING fts5(a, b, tokenize=tclnum, detail=%DETAIL%)
   }
   foreach {rowid a b} {
     1 {four v 4 i three} {1 3 five five 4 one}
     2 {5 1 3 4 i} {2 2 v two 4}
     3 {5 i 5 2 four 4 1} {iii ii five two 1}
     4 {ii four 4 one 5 three five} {one 5 1 iii 4 3}
     5 {three i v i four 4 1} {ii five five five iii}
     6 {4 2 ii two 2 iii} {three 1 four 4 iv 1 iv}
     7 {ii ii two three 2 5} {iii i ii iii iii one one}
     8 {2 ii i two 3 three 2} {two iv v iii 3 five}
     9 {i 2 iv 3 five four v} {iii 4 three i three ii 1}
   } {
     execsql { INSERT INTO t1(rowid, a, b) VALUES($rowid, $a, $b) }
   }
 } {}


 foreach {tn q res} {
   1 {one} {
     1 {four v 4 [i] three} {[1] 3 five five 4 [one]}
     2 {5 [1] 3 4 [i]} {2 2 v two 4}
     3 {5 [i] 5 2 four 4 [1]} {iii ii five two [1]}
     4 {ii four 4 [one] 5 three five} {[one] 5 [1] iii 4 3}
     5 {three [i] v [i] four 4 [1]} {ii five five five iii}
     6 {4 2 ii two 2 iii} {three [1] four 4 iv [1] iv}
     7 {ii ii two three 2 5} {iii [i] ii iii iii [one] [one]}
     8 {2 ii [i] two 3 three 2} {two iv v iii 3 five}
     9 {[i] 2 iv 3 five four v} {iii 4 three [i] three ii [1]}
   }
   2 {five four} {
     1 {[four] [v] [4] i three} {1 3 [five] [five] [4] one}
     2 {[5] 1 3 [4] i} {2 2 [v] two [4]}
     3 {[5] i [5] 2 [four] [4] 1} {iii ii [five] two 1}
     4 {ii [four] [4] one [5] three [five]} {one [5] 1 iii [4] 3}
     5 {three i [v] i [four] [4] 1} {ii [five] [five] [five] iii}
     8 {2 ii i two 3 three 2} {two [iv] [v] iii 3 [five]}
     9 {i 2 [iv] 3 [five] [four] [v]} {iii [4] three i three ii 1}
   }
   3 {one OR two OR iii OR 4 OR v} {
     1 {[four] [v] [4] [i] [three]} {[1] [3] [five] [five] [4] [one]}
     2 {[5] [1] [3] [4] [i]} {[2] [2] [v] [two] [4]}
     3 {[5] [i] [5] [2] [four] [4] [1]} {[iii] [ii] [five] [two] [1]}
     4 {[ii] [four] [4] [one] [5] [three] [five]} {[one] [5] [1] [iii] [4] [3]}
     5 {[three] [i] [v] [i] [four] [4] [1]} {[ii] [five] [five] [five] [iii]}
     6 {[4] [2] [ii] [two] [2] [iii]} {[three] [1] [four] [4] [iv] [1] [iv]}
     7 {[ii] [ii] [two] [three] [2] [5]} {[iii] [i] [ii] [iii] [iii] [one] [one]}
     8 {[2] [ii] [i] [two] [3] [three] [2]} {[two] [iv] [v] [iii] [3] [five]}
     9 {[i] [2] [iv] [3] [five] [four] [v]} {[iii] [4] [three] [i] [three] [ii] [1]}
   }

   4 {5 + 1} {
     2 {[5 1] 3 4 i} {2 2 v two 4}
     3 {[5 i] 5 2 four 4 1} {iii ii five two 1}
     4 {ii four 4 one 5 three five} {one [5 1] iii 4 3}
     5 {three i [v i] four 4 1} {ii five five five iii}
   }

   5 {one + two + three} {
     7 {ii ii two three 2 5} {iii [i ii iii] iii one one}
     8 {2 ii [i two 3] three 2} {two iv v iii 3 five}
   }

   6 {"v v"} {
     1 {four v 4 i three} {1 3 [five five] 4 one}
     5 {three i v i four 4 1} {ii [five five five] iii}
   }
 } {
   if {![fts5_expr_ok $q t1]} continue
   do_execsql_test 5.1.$tn {
     SELECT rowid, highlight(t1, 0, '[', ']'), highlight(t1, 1, '[', ']')
     FROM t1 WHERE t1 MATCH $q
   } $res
 }

 # Test that the xQueryPhrase() API works with synonyms.
 #
 proc mit {blob} {
   set scan(littleEndian) i*
   set scan(bigEndian) I*
   binary scan $blob $scan($::tcl_platform(byteOrder)) r
   return $r
 }
 db func mit mit
 sqlite3_fts5_register_matchinfo db

 foreach {tn q res} {
   1 {one} {
       1 {1 11 7 2 12 6}     2 {2 11 7 0 12 6}
       3 {2 11 7 1 12 6}     4 {1 11 7 2 12 6}
       5 {3 11 7 0 12 6}     6 {0 11 7 2 12 6}
       7 {0 11 7 3 12 6}     8 {1 11 7 0 12 6}
       9 {1 11 7 2 12 6}
   }
 } {
   do_execsql_test 5.2.$tn {
     SELECT rowid, mit(matchinfo(t1, 'x')) FROM t1 WHERE t1 MATCH $q
   } $res
 }

 #-------------------------------------------------------------------------
 # Test terms with more than 4 synonyms.
 #
 reset_db
 sqlite3_fts5_create_tokenizer db tcl tcl_create
 proc tcl_tokenize {tflags text} {
   foreach {w iStart iEnd} [fts5_tokenize_split $text] {
     sqlite3_fts5_token $w $iStart $iEnd
     if {$tflags=="query" && [string length $w]==1} {
       for {set i 2} {$i<=10} {incr i} {
         sqlite3_fts5_token -colo [string repeat $w $i] $iStart $iEnd
       }
     }
   }
 }

 do_execsql_test 6.0.1 {
   CREATE VIRTUAL TABLE t1 USING fts5(x, tokenize=tcl, detail=%DETAIL%);
   INSERT INTO t1 VALUES('yy xx qq');
   INSERT INTO t1 VALUES('yy xx xx');
 }
 if {[fts5_expr_ok "NEAR(y q)" t1]} {
   do_execsql_test 6.0.2 {
     SELECT * FROM t1 WHERE t1 MATCH 'NEAR(y q)';
   } {{yy xx qq}}
 }

 do_test 6.0.3 {
   execsql {
     CREATE VIRTUAL TABLE t2 USING fts5(a, b, tokenize=tcl, detail=%DETAIL%)
   }
   foreach {rowid a b} {
     1 {yyyy vvvvv qq oo yyyyyy vvvv eee} {ffff uu r qq aaaa}
     2 {ww oooooo bbbbb ssssss mm} {ffffff yy iiii rr s ccc qqqqq}
     3 {zzzz llll gggggg cccc uu} {hhhhhh aaaa ppppp rr ee jjjj}
     4 {r f i rrrrrr ww hhh} {aa yyy t x aaaaa ii}
     5 {fffff mm vvvv ooo ffffff kkkk tttt} {cccccc bb e zzz d n}
     6 {iii dddd hh qqqq ddd ooo} {ttt d c b aaaaaa qqqq}
     7 {jjjj rrrr v zzzzz u tt t} {ppppp pp dddd mm hhh uuu}
     8 {gggg rrrrrr kkkk vvvv gggg jjjjjj b} {dddddd jj r w cccc wwwwww ss}
     9 {kkkkk qqq oooo e tttttt mmm} {e ss qqqqqq hhhh llllll gg}
   } {
     execsql { INSERT INTO t2(rowid, a, b) VALUES($rowid, $a, $b) }
   }
 } {}

 foreach {tn q res} {
   1 {a} {
     1 {yyyy vvvvv qq oo yyyyyy vvvv eee} {ffff uu r qq [aaaa]}
     3 {zzzz llll gggggg cccc uu} {hhhhhh [aaaa] ppppp rr ee jjjj}
     4 {r f i rrrrrr ww hhh} {[aa] yyy t x [aaaaa] ii}
     6 {iii dddd hh qqqq ddd ooo} {ttt d c b [aaaaaa] qqqq}
   }

   2 {a AND q} {
     1 {yyyy vvvvv [qq] oo yyyyyy vvvv eee} {ffff uu r [qq] [aaaa]}
     6 {iii dddd hh [qqqq] ddd ooo} {ttt d c b [aaaaaa] [qqqq]}
   }

   3 {o OR (q AND a)} {
     1 {yyyy vvvvv [qq] [oo] yyyyyy vvvv eee} {ffff uu r [qq] [aaaa]}
     2 {ww [oooooo] bbbbb ssssss mm} {ffffff yy iiii rr s ccc qqqqq}
     5 {fffff mm vvvv [ooo] ffffff kkkk tttt} {cccccc bb e zzz d n}
     6 {iii dddd hh [qqqq] ddd [ooo]} {ttt d c b [aaaaaa] [qqqq]}
     9 {kkkkk qqq [oooo] e tttttt mmm} {e ss qqqqqq hhhh llllll gg}
   }

   4 {NEAR(q y, 20)} {
     1 {[yyyy] vvvvv [qq] oo [yyyyyy] vvvv eee} {ffff uu r qq aaaa}
     2 {ww oooooo bbbbb ssssss mm} {ffffff [yy] iiii rr s ccc [qqqqq]}
   }
 } {
   if {![fts5_expr_ok $q t2]} continue

   do_execsql_test 6.1.$tn.asc {
     SELECT rowid, highlight(t2, 0, '[', ']'), highlight(t2, 1, '[', ']')
     FROM t2 WHERE t2 MATCH $q
   } $res

   set res2 [list]
   foreach {rowid a b} $res {
     set res2 [concat [list $rowid $a $b] $res2]
   }

   do_execsql_test 6.1.$tn.desc {
     SELECT rowid, highlight(t2, 0, '[', ']'), highlight(t2, 1, '[', ']')
     FROM t2 WHERE t2 MATCH $q ORDER BY rowid DESC
   } $res2
 }

 do_execsql_test 6.2.1 {
   INSERT INTO t2(rowid, a, b) VALUES(13,
       'x xx xxx xxxx xxxxx xxxxxx xxxxxxx', 'y yy yyy yyyy yyyyy yyyyyy yyyyyyy'
   );
   SELECT rowid, highlight(t2, 0, '<', '>'), highlight(t2, 1, '(', ')')
   FROM t2 WHERE t2 MATCH 'x OR y'
 } {
   1 {<yyyy> vvvvv qq oo <yyyyyy> vvvv eee} {ffff uu r qq aaaa}
   2 {ww oooooo bbbbb ssssss mm} {ffffff (yy) iiii rr s ccc qqqqq}
   4 {r f i rrrrrr ww hhh} {aa (yyy) t (x) aaaaa ii}
   13 {<x> <xx> <xxx> <xxxx> <xxxxx> <xxxxxx> <xxxxxxx>}
      {(y) (yy) (yyy) (yyyy) (yyyyy) (yyyyyy) (yyyyyyy)}
 }

 #-------------------------------------------------------------------------
 # Test that the xColumnSize() API is not confused by colocated tokens.
 #
 reset_db
 sqlite3_fts5_create_tokenizer db tcl tcl_create
 fts5_aux_test_functions db
 proc tcl_tokenize {tflags text} {
   foreach {w iStart iEnd} [fts5_tokenize_split $text] {
     sqlite3_fts5_token $w $iStart $iEnd
     if {[string length $w]==1} {
       for {set i 2} {$i<=10} {incr i} {
         sqlite3_fts5_token -colo [string repeat $w $i] $iStart $iEnd
       }
     }
   }
 }

 do_execsql_test 7.0.1 {
   CREATE VIRTUAL TABLE t1 USING fts5(a, b, columnsize=1, tokenize=tcl, detail=%DETAIL%);
   INSERT INTO t1 VALUES('0 2 3', '4 5 6 7');
   INSERT INTO t1 VALUES('8 9', '0 0 0 0 0 0 0 0 0 0');
   SELECT fts5_test_columnsize(t1) FROM t1 WHERE t1 MATCH '000 AND 00 AND 0';
 } {{3 4} {2 10}}

 do_execsql_test 7.0.2 {
   INSERT INTO t1(t1) VALUES('integrity-check');
 }

 do_execsql_test 7.1.1 {
   CREATE VIRTUAL TABLE t2 USING fts5(a, b, columnsize=0, tokenize=tcl, detail=%DETAIL%);
   INSERT INTO t2 VALUES('0 2 3', '4 5 6 7');
   INSERT INTO t2 VALUES('8 9', '0 0 0 0 0 0 0 0 0 0');
   SELECT fts5_test_columnsize(t2) FROM t2 WHERE t2 MATCH '000 AND 00 AND 0';
 } {{3 4} {2 10}}

 do_execsql_test 7.1.2 {
   INSERT INTO t2(t2) VALUES('integrity-check');
 }

 } ;# foreach_detail_mode

 finish_test
	# 2014 Dec 20
	#
	# 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.
	#
	#***********************************************************************
	#
	# Tests focusing on custom tokenizers that support synonyms.
	#

	source [file join [file dirname [info script]] fts5_common.tcl]
	set testprefix fts5synonym

	# If SQLITE_ENABLE_FTS5 is defined, omit this file.
	ifcapable !fts5 {
	finish_test
	return
	}

	proc tcl_create {args} { return "tcl_tokenize" }

	foreach_detail_mode $testprefix {

	#-------------------------------------------------------------------------
	# Warm body test for the code in fts5_tcl.c.
	#
	fts5_tclnum_register db
	do_execsql_test 1.0 {
	CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = "tclnum document", detail=%DETAIL%);
	INSERT INTO ft VALUES('abc def ghi');
	INSERT INTO ft VALUES('jkl mno pqr');
	SELECT rowid, x FROM ft WHERE ft MATCH 'def';
	SELECT x, rowid FROM ft WHERE ft MATCH 'pqr';
	} {1 {abc def ghi} {jkl mno pqr} 2}

	#-------------------------------------------------------------------------
	# Test a tokenizer that supports synonyms by adding extra entries to the
	# FTS index.
	#
	reset_db
	fts5_tclnum_register db

	do_execsql_test 2.0 {
	CREATE VIRTUAL TABLE ft USING fts5(
	x, tokenize = "tclnum document", detail=%DETAIL%
	);
	INSERT INTO ft VALUES('one two three');
	INSERT INTO ft VALUES('four five six');
	INSERT INTO ft VALUES('eight nine ten');
	} {}

	foreach {tn expr res} {
	1 "3" 1
	2 "eight OR 8 OR 5" {2 3}
	3 "10" {}
	4 "1*" {1}
	5 "1 + 2" {1}
	} {
	if {![fts5_expr_ok $expr ft]} continue
	do_execsql_test 2.1.$tn {
	SELECT rowid FROM ft WHERE ft MATCH $expr
	} $res
	}

	#-------------------------------------------------------------------------
	# Test some broken tokenizers:
	#
	# 3.1.*: A tokenizer that declares the very first token to be colocated.
	#
	# 3.2.*: A tokenizer that reports two identical tokens at the same position.
	# This is allowed.
	#
	reset_db
	sqlite3_fts5_create_tokenizer db tcl tcl_create
	proc tcl_tokenize {tflags text} {
	set bColo 1
	foreach {w iStart iEnd} [fts5_tokenize_split $text] {
	if {$bColo} {
	sqlite3_fts5_token -colo $w $iStart $iEnd
	set bColo 0
	} {
	sqlite3_fts5_token $w $iStart $iEnd
	}
	}
	}
	do_execsql_test 3.1.0 {
	CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = tcl);
	INSERT INTO ft VALUES('one two three');
	CREATE VIRTUAL TABLE vv USING fts5vocab(ft, row);
	SELECT * FROM vv;
	} {
	one 1 1 three 1 1 two 1 1
	}

	do_execsql_test 3.1.1 {
	INSERT INTO ft(ft) VALUES('integrity-check');
	} {}

	proc tcl_tokenize {tflags text} {
	foreach {w iStart iEnd} [fts5_tokenize_split $text] {
	sqlite3_fts5_token $w $iStart $iEnd
	}
	}

	do_execsql_test 3.1.2 {
	SELECT rowid FROM ft WHERE ft MATCH 'one two three'
	} {1}

	reset_db
	sqlite3_fts5_create_tokenizer db tcl tcl_create
	proc tcl_tokenize {tflags text} {
	foreach {w iStart iEnd} [fts5_tokenize_split $text] {
	sqlite3_fts5_token $w $iStart $iEnd
	sqlite3_fts5_token -colo $w $iStart $iEnd
	}
	}
	do_execsql_test 3.2.0 {
	CREATE VIRTUAL TABLE ft USING fts5(x, tokenize = tcl);
	INSERT INTO ft VALUES('one one two three');
	CREATE VIRTUAL TABLE vv USING fts5vocab(ft, row);
	SELECT * FROM vv;
	} {
	one 1 4 three 1 2 two 1 2
	}
	do_execsql_test 3.2.1 {
	SELECT rowid FROM ft WHERE ft MATCH 'one';
	} {1}
	do_execsql_test 3.2.2 {
	SELECT rowid FROM ft WHERE ft MATCH 'one two three';
	} {1}
	do_execsql_test 3.2.3 {
	SELECT rowid FROM ft WHERE ft MATCH 'one + one + two + three';
	} {1}
	do_execsql_test 3.2.4 {
	SELECT rowid FROM ft WHERE ft MATCH 'one two two three';
	} {1}
	do_execsql_test 3.2.5 {
	SELECT rowid FROM ft WHERE ft MATCH 'one + two + two + three';
	} {}

	#-------------------------------------------------------------------------
	# Check that expressions with synonyms can be parsed and executed.
	#
	reset_db
	fts5_tclnum_register db

	foreach {tn expr res} {
	1 {abc} {"abc"}
	2 {one} {"one"\|"i"\|"1"}
	3 {3} {"3"\|"iii"\|"three"}
	4 {3} {"3" }
	} {
	do_execsql_test 4.1.$tn {
	SELECT fts5_expr($expr, 'tokenize=tclnum')
	} [list $res]
	}

	do_execsql_test 4.2.1 {
	CREATE VIRTUAL TABLE xx USING fts5(x, tokenize=tclnum, detail=%DETAIL%);
	INSERT INTO xx VALUES('one two');
	INSERT INTO xx VALUES('three four');
	}

	do_execsql_test 4.2.2 {
	SELECT rowid FROM xx WHERE xx MATCH '2'
	} {1}

	do_execsql_test 4.2.3 {
	SELECT rowid FROM xx WHERE xx MATCH '3'
	} {2}

	do_test 5.0 {
	execsql {
	CREATE VIRTUAL TABLE t1 USING fts5(a, b, tokenize=tclnum, detail=%DETAIL%)
	}
	foreach {rowid a b} {
	1 {four v 4 i three} {1 3 five five 4 one}
	2 {5 1 3 4 i} {2 2 v two 4}
	3 {5 i 5 2 four 4 1} {iii ii five two 1}
	4 {ii four 4 one 5 three five} {one 5 1 iii 4 3}
	5 {three i v i four 4 1} {ii five five five iii}
	6 {4 2 ii two 2 iii} {three 1 four 4 iv 1 iv}
	7 {ii ii two three 2 5} {iii i ii iii iii one one}
	8 {2 ii i two 3 three 2} {two iv v iii 3 five}
	9 {i 2 iv 3 five four v} {iii 4 three i three ii 1}
	} {
	execsql { INSERT INTO t1(rowid, a, b) VALUES($rowid, $a, $b) }
	}
	} {}


	foreach {tn q res} {
	1 {one} {
	1 {four v 4 [i] three} {[1] 3 five five 4 [one]}
	2 {5 [1] 3 4 [i]} {2 2 v two 4}
	3 {5 [i] 5 2 four 4 [1]} {iii ii five two [1]}
	4 {ii four 4 [one] 5 three five} {[one] 5 [1] iii 4 3}
	5 {three [i] v [i] four 4 [1]} {ii five five five iii}
	6 {4 2 ii two 2 iii} {three [1] four 4 iv [1] iv}
	7 {ii ii two three 2 5} {iii [i] ii iii iii [one] [one]}
	8 {2 ii [i] two 3 three 2} {two iv v iii 3 five}
	9 {[i] 2 iv 3 five four v} {iii 4 three [i] three ii [1]}
	}
	2 {five four} {
	1 {[four] [v] [4] i three} {1 3 [five] [five] [4] one}
	2 {[5] 1 3 [4] i} {2 2 [v] two [4]}
	3 {[5] i [5] 2 [four] [4] 1} {iii ii [five] two 1}
	4 {ii [four] [4] one [5] three [five]} {one [5] 1 iii [4] 3}
	5 {three i [v] i [four] [4] 1} {ii [five] [five] [five] iii}
	8 {2 ii i two 3 three 2} {two [iv] [v] iii 3 [five]}
	9 {i 2 [iv] 3 [five] [four] [v]} {iii [4] three i three ii 1}
	}
	3 {one OR two OR iii OR 4 OR v} {
	1 {[four] [v] [4] [i] [three]} {[1] [3] [five] [five] [4] [one]}
	2 {[5] [1] [3] [4] [i]} {[2] [2] [v] [two] [4]}
	3 {[5] [i] [5] [2] [four] [4] [1]} {[iii] [ii] [five] [two] [1]}
	4 {[ii] [four] [4] [one] [5] [three] [five]} {[one] [5] [1] [iii] [4] [3]}
	5 {[three] [i] [v] [i] [four] [4] [1]} {[ii] [five] [five] [five] [iii]}
	6 {[4] [2] [ii] [two] [2] [iii]} {[three] [1] [four] [4] [iv] [1] [iv]}
	7 {[ii] [ii] [two] [three] [2] [5]} {[iii] [i] [ii] [iii] [iii] [one] [one]}
	8 {[2] [ii] [i] [two] [3] [three] [2]} {[two] [iv] [v] [iii] [3] [five]}
	9 {[i] [2] [iv] [3] [five] [four] [v]} {[iii] [4] [three] [i] [three] [ii] [1]}
	}

	4 {5 + 1} {
	2 {[5 1] 3 4 i} {2 2 v two 4}
	3 {[5 i] 5 2 four 4 1} {iii ii five two 1}
	4 {ii four 4 one 5 three five} {one [5 1] iii 4 3}
	5 {three i [v i] four 4 1} {ii five five five iii}
	}

	5 {one + two + three} {
	7 {ii ii two three 2 5} {iii [i ii iii] iii one one}
	8 {2 ii [i two 3] three 2} {two iv v iii 3 five}
	}

	6 {"v v"} {
	1 {four v 4 i three} {1 3 [five five] 4 one}
	5 {three i v i four 4 1} {ii [five five five] iii}
	}
	} {
	if {![fts5_expr_ok $q t1]} continue
	do_execsql_test 5.1.$tn {
	SELECT rowid, highlight(t1, 0, '[', ']'), highlight(t1, 1, '[', ']')
	FROM t1 WHERE t1 MATCH $q
	} $res
	}

	# Test that the xQueryPhrase() API works with synonyms.
	#
	proc mit {blob} {
	set scan(littleEndian) i*
	set scan(bigEndian) I*
	binary scan $blob $scan($::tcl_platform(byteOrder)) r
	return $r
	}
	db func mit mit
	sqlite3_fts5_register_matchinfo db

	foreach {tn q res} {
	1 {one} {
	1 {1 11 7 2 12 6} 2 {2 11 7 0 12 6}
	3 {2 11 7 1 12 6} 4 {1 11 7 2 12 6}
	5 {3 11 7 0 12 6} 6 {0 11 7 2 12 6}
	7 {0 11 7 3 12 6} 8 {1 11 7 0 12 6}
	9 {1 11 7 2 12 6}
	}
	} {
	do_execsql_test 5.2.$tn {
	SELECT rowid, mit(matchinfo(t1, 'x')) FROM t1 WHERE t1 MATCH $q
	} $res
	}

	#-------------------------------------------------------------------------
	# Test terms with more than 4 synonyms.
	#
	reset_db
	sqlite3_fts5_create_tokenizer db tcl tcl_create
	proc tcl_tokenize {tflags text} {
	foreach {w iStart iEnd} [fts5_tokenize_split $text] {
	sqlite3_fts5_token $w $iStart $iEnd
	if {$tflags=="query" && [string length $w]==1} {
	for {set i 2} {$i<=10} {incr i} {
	sqlite3_fts5_token -colo [string repeat $w $i] $iStart $iEnd
	}
	}
	}
	}

	do_execsql_test 6.0.1 {
	CREATE VIRTUAL TABLE t1 USING fts5(x, tokenize=tcl, detail=%DETAIL%);
	INSERT INTO t1 VALUES('yy xx qq');
	INSERT INTO t1 VALUES('yy xx xx');
	}
	if {[fts5_expr_ok "NEAR(y q)" t1]} {
	do_execsql_test 6.0.2 {
	SELECT * FROM t1 WHERE t1 MATCH 'NEAR(y q)';
	} {{yy xx qq}}
	}

	do_test 6.0.3 {
	execsql {
	CREATE VIRTUAL TABLE t2 USING fts5(a, b, tokenize=tcl, detail=%DETAIL%)
	}
	foreach {rowid a b} {
	1 {yyyy vvvvv qq oo yyyyyy vvvv eee} {ffff uu r qq aaaa}
	2 {ww oooooo bbbbb ssssss mm} {ffffff yy iiii rr s ccc qqqqq}
	3 {zzzz llll gggggg cccc uu} {hhhhhh aaaa ppppp rr ee jjjj}
	4 {r f i rrrrrr ww hhh} {aa yyy t x aaaaa ii}
	5 {fffff mm vvvv ooo ffffff kkkk tttt} {cccccc bb e zzz d n}
	6 {iii dddd hh qqqq ddd ooo} {ttt d c b aaaaaa qqqq}
	7 {jjjj rrrr v zzzzz u tt t} {ppppp pp dddd mm hhh uuu}
	8 {gggg rrrrrr kkkk vvvv gggg jjjjjj b} {dddddd jj r w cccc wwwwww ss}
	9 {kkkkk qqq oooo e tttttt mmm} {e ss qqqqqq hhhh llllll gg}
	} {
	execsql { INSERT INTO t2(rowid, a, b) VALUES($rowid, $a, $b) }
	}
	} {}

	foreach {tn q res} {
	1 {a} {
	1 {yyyy vvvvv qq oo yyyyyy vvvv eee} {ffff uu r qq [aaaa]}
	3 {zzzz llll gggggg cccc uu} {hhhhhh [aaaa] ppppp rr ee jjjj}
	4 {r f i rrrrrr ww hhh} {[aa] yyy t x [aaaaa] ii}
	6 {iii dddd hh qqqq ddd ooo} {ttt d c b [aaaaaa] qqqq}
	}

	2 {a AND q} {
	1 {yyyy vvvvv [qq] oo yyyyyy vvvv eee} {ffff uu r [qq] [aaaa]}
	6 {iii dddd hh [qqqq] ddd ooo} {ttt d c b [aaaaaa] [qqqq]}
	}

	3 {o OR (q AND a)} {
	1 {yyyy vvvvv [qq] [oo] yyyyyy vvvv eee} {ffff uu r [qq] [aaaa]}
	2 {ww [oooooo] bbbbb ssssss mm} {ffffff yy iiii rr s ccc qqqqq}
	5 {fffff mm vvvv [ooo] ffffff kkkk tttt} {cccccc bb e zzz d n}
	6 {iii dddd hh [qqqq] ddd [ooo]} {ttt d c b [aaaaaa] [qqqq]}
	9 {kkkkk qqq [oooo] e tttttt mmm} {e ss qqqqqq hhhh llllll gg}
	}

	4 {NEAR(q y, 20)} {
	1 {[yyyy] vvvvv [qq] oo [yyyyyy] vvvv eee} {ffff uu r qq aaaa}
	2 {ww oooooo bbbbb ssssss mm} {ffffff [yy] iiii rr s ccc [qqqqq]}
	}
	} {
	if {![fts5_expr_ok $q t2]} continue

	do_execsql_test 6.1.$tn.asc {
	SELECT rowid, highlight(t2, 0, '[', ']'), highlight(t2, 1, '[', ']')
	FROM t2 WHERE t2 MATCH $q
	} $res

	set res2 [list]
	foreach {rowid a b} $res {
	set res2 [concat [list $rowid $a $b] $res2]
	}

	do_execsql_test 6.1.$tn.desc {
	SELECT rowid, highlight(t2, 0, '[', ']'), highlight(t2, 1, '[', ']')
	FROM t2 WHERE t2 MATCH $q ORDER BY rowid DESC
	} $res2
	}

	do_execsql_test 6.2.1 {
	INSERT INTO t2(rowid, a, b) VALUES(13,
	'x xx xxx xxxx xxxxx xxxxxx xxxxxxx', 'y yy yyy yyyy yyyyy yyyyyy yyyyyyy'
	);
	SELECT rowid, highlight(t2, 0, '<', '>'), highlight(t2, 1, '(', ')')
	FROM t2 WHERE t2 MATCH 'x OR y'
	} {
	1 {<yyyy> vvvvv qq oo <yyyyyy> vvvv eee} {ffff uu r qq aaaa}
	2 {ww oooooo bbbbb ssssss mm} {ffffff (yy) iiii rr s ccc qqqqq}
	4 {r f i rrrrrr ww hhh} {aa (yyy) t (x) aaaaa ii}
	13 {<x> <xx> <xxx> <xxxx> <xxxxx> <xxxxxx> <xxxxxxx>}
	{(y) (yy) (yyy) (yyyy) (yyyyy) (yyyyyy) (yyyyyyy)}
	}

	#-------------------------------------------------------------------------
	# Test that the xColumnSize() API is not confused by colocated tokens.
	#
	reset_db
	sqlite3_fts5_create_tokenizer db tcl tcl_create
	fts5_aux_test_functions db
	proc tcl_tokenize {tflags text} {
	foreach {w iStart iEnd} [fts5_tokenize_split $text] {
	sqlite3_fts5_token $w $iStart $iEnd
	if {[string length $w]==1} {
	for {set i 2} {$i<=10} {incr i} {
	sqlite3_fts5_token -colo [string repeat $w $i] $iStart $iEnd
	}
	}
	}
	}

	do_execsql_test 7.0.1 {
	CREATE VIRTUAL TABLE t1 USING fts5(a, b, columnsize=1, tokenize=tcl, detail=%DETAIL%);
	INSERT INTO t1 VALUES('0 2 3', '4 5 6 7');
	INSERT INTO t1 VALUES('8 9', '0 0 0 0 0 0 0 0 0 0');
	SELECT fts5_test_columnsize(t1) FROM t1 WHERE t1 MATCH '000 AND 00 AND 0';
	} {{3 4} {2 10}}

	do_execsql_test 7.0.2 {
	INSERT INTO t1(t1) VALUES('integrity-check');
	}

	do_execsql_test 7.1.1 {
	CREATE VIRTUAL TABLE t2 USING fts5(a, b, columnsize=0, tokenize=tcl, detail=%DETAIL%);
	INSERT INTO t2 VALUES('0 2 3', '4 5 6 7');
	INSERT INTO t2 VALUES('8 9', '0 0 0 0 0 0 0 0 0 0');
	SELECT fts5_test_columnsize(t2) FROM t2 WHERE t2 MATCH '000 AND 00 AND 0';
	} {{3 4} {2 10}}

	do_execsql_test 7.1.2 {
	INSERT INTO t2(t2) VALUES('integrity-check');
	}

	} ;# foreach_detail_mode

	finish_test