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FossilOrigin-Name: 911e8a17a3810cd7042e91a32aba80dc3d6be88320c208e48f7bcee8b22a0ff2
708 lines
27 KiB
Plaintext
708 lines
27 KiB
Plaintext
# 2009 November 28
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#***********************************************************************
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#
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# This file implements tests to verify the "testable statements" in the
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# fts3.in document.
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#
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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# If this build does not include FTS3, skip the tests in this file.
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#
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ifcapable !fts3 { finish_test ; return }
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source $testdir/fts3_common.tcl
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source $testdir/malloc_common.tcl
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# Procs used to make the tests in this file easier to read.
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#
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proc ddl_test {tn ddl} {
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uplevel [list do_write_test e_fts3-$tn sqlite_master $ddl]
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}
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proc write_test {tn tbl sql} {
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uplevel [list do_write_test e_fts3-$tn $tbl $sql]
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}
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proc read_test {tn sql result} {
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uplevel [list do_select_test e_fts3-$tn $sql $result]
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}
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proc error_test {tn sql result} {
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uplevel [list do_error_test e_fts3-$tn $sql $result]
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}
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#-------------------------------------------------------------------------
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# The body of the following [foreach] block contains test cases to verify
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# that the example code in fts3.html works as expected. The tests run three
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# times, with different values for DO_MALLOC_TEST.
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#
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# DO_MALLOC_TEST=0: Run tests with no OOM errors.
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# DO_MALLOC_TEST=1: Run tests with transient OOM errors.
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# DO_MALLOC_TEST=2: Run tests with persistent OOM errors.
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#
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foreach {DO_MALLOC_TEST enc} {
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0 utf-8
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1 utf-8
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2 utf-8
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1 utf-16
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} {
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#if {$DO_MALLOC_TEST} break
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# Reset the database and database connection. If this iteration of the
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# [foreach] loop is testing with OOM errors, disable the lookaside buffer.
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#
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db close
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forcedelete test.db test.db-journal
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sqlite3 db test.db
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if {$DO_MALLOC_TEST} { sqlite3_db_config_lookaside db 0 0 0 }
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db eval "PRAGMA encoding = '$enc'"
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proc mit {blob} {
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set scan(littleEndian) i*
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set scan(bigEndian) I*
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binary scan $blob $scan($::tcl_platform(byteOrder)) r
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return $r
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}
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db func mit mit
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##########################################################################
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# Test the example CREATE VIRTUAL TABLE statements in section 1.1
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# of fts3.in.
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#
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ddl_test 1.1.1.1 {CREATE VIRTUAL TABLE data USING fts3()}
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read_test 1.1.1.2 {PRAGMA table_info(data)} {0 content {} 0 {} 0}
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ddl_test 1.1.2.1 {
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CREATE VIRTUAL TABLE pages USING fts3(title, keywords, body)
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}
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read_test 1.1.2.2 {
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PRAGMA table_info(pages)
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} {0 title {} 0 {} 0 1 keywords {} 0 {} 0 2 body {} 0 {} 0}
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ddl_test 1.1.3.1 {
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CREATE VIRTUAL TABLE mail USING fts3(
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subject VARCHAR(256) NOT NULL,
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body TEXT CHECK(length(body)<10240)
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)
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}
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read_test 1.1.3.2 {
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PRAGMA table_info(mail)
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} {0 subject {} 0 {} 0 1 body {} 0 {} 0}
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# A very large string. Used to test if the constraint on column "body" of
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# table "mail" is enforced (it should not be - FTS3 tables do not support
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# constraints).
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set largetext [string repeat "the quick brown fox " 5000]
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write_test 1.1.3.3 mail_content { INSERT INTO mail VALUES(NULL, $largetext) }
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read_test 1.1.3.4 {
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SELECT subject IS NULL, length(body) FROM mail
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} [list 1 100000]
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ddl_test 1.1.4.1 {
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CREATE VIRTUAL TABLE papers USING fts3(author, document, tokenize=porter)
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}
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read_test 1.1.4.2 {
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PRAGMA table_info(papers)
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} {0 author {} 0 {} 0 1 document {} 0 {} 0}
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ddl_test 1.1.5.1 {
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CREATE VIRTUAL TABLE simpledata USING fts3(tokenize=simple)
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}
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read_test 1.1.5.2 {
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PRAGMA table_info(simpledata)
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} {0 content {} 0 {} 0}
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ifcapable icu {
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ddl_test 1.1.6.1 {
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CREATE VIRTUAL TABLE names USING fts3(a, b, tokenize=icu en_AU)
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}
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read_test 1.1.6.2 {
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PRAGMA table_info(names)
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} {0 a {} 0 {} 0 1 b {} 0 {} 0}
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}
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ddl_test 1.1.7.1 {DROP TABLE data}
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ddl_test 1.1.7.2 {DROP TABLE pages}
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ddl_test 1.1.7.3 {DROP TABLE mail}
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ddl_test 1.1.7.4 {DROP TABLE papers}
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ddl_test 1.1.7.5 {DROP TABLE simpledata}
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read_test 1.1.7.6 {SELECT * FROM sqlite_master} {}
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# The following is not one of the examples in section 1.1. It tests
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# specifying an FTS3 table with no module arguments using a slightly
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# different syntax.
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ddl_test 1.1.8.1 {CREATE VIRTUAL TABLE data USING fts3;}
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read_test 1.1.8.2 {PRAGMA table_info(data)} {0 content {} 0 {} 0}
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ddl_test 1.1.8.3 {DROP TABLE data}
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##########################################################################
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# Test the examples in section 1.2 (populating fts3 tables)
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#
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ddl_test 1.2.1.1 {
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CREATE VIRTUAL TABLE pages USING fts3(title, body);
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}
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write_test 1.2.1.2 pages_content {
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INSERT INTO pages(docid, title, body)
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VALUES(53, 'Home Page', 'SQLite is a software...');
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}
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read_test 1.2.1.3 {
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SELECT docid, * FROM pages
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} {53 {Home Page} {SQLite is a software...}}
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write_test 1.2.1.4 pages_content {
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INSERT INTO pages(title, body)
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VALUES('Download', 'All SQLite source code...');
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}
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read_test 1.2.1.5 {
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SELECT docid, * FROM pages
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} {53 {Home Page} {SQLite is a software...} 54 Download {All SQLite source code...}}
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write_test 1.2.1.6 pages_content {
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UPDATE pages SET title = 'Download SQLite' WHERE rowid = 54
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}
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read_test 1.2.1.7 {
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SELECT docid, * FROM pages
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} {53 {Home Page} {SQLite is a software...} 54 {Download SQLite} {All SQLite source code...}}
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write_test 1.2.1.8 pages_content { DELETE FROM pages }
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read_test 1.2.1.9 { SELECT docid, * FROM pages } {}
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do_error_test fts3-1.2.1.10 {
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INSERT INTO pages(rowid, docid, title, body) VALUES(1, 2, 'A title', 'A document body');
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} {SQL logic error}
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# Test the optimize() function example:
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ddl_test 1.2.2.1 { CREATE VIRTUAL TABLE docs USING fts3 }
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write_test 1.2.2.2 docs_content {
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INSERT INTO docs VALUES('Others translate the first clause as');
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}
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write_test 1.2.2.3 docs_content {
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INSERT INTO docs VALUES('"which is for Solomon," meaning that');
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}
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write_test 1.2.2.4 docs_content {
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INSERT INTO docs VALUES('the book is dedicated to Solomon.');
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}
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read_test 1.2.2.5 { SELECT count(*) FROM docs_segdir } {3}
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write_test 1.2.2.6 docs_segdir {
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INSERT INTO docs(docs) VALUES('optimize');
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}
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read_test 1.2.2.7 { SELECT count(*) FROM docs_segdir } {1}
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ddl_test 1.2.2.8 { DROP TABLE docs }
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##########################################################################
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# Test the examples in section 1.3 (querying FTS3 tables)
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#
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ddl_test 1.3.1.1 { CREATE VIRTUAL TABLE mail USING fts3(subject, body) }
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read_test 1.3.1.2 {
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SELECT * FROM mail WHERE rowid = 15; -- Fast. Rowid lookup.
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SELECT * FROM mail WHERE body MATCH 'sqlite'; -- Fast. Full-text query.
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SELECT * FROM mail WHERE mail MATCH 'search'; -- Fast. Full-text query.
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SELECT * FROM mail WHERE rowid BETWEEN 15 AND 20; -- Slow. Linear scan.
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SELECT * FROM mail WHERE subject = 'database'; -- Slow. Linear scan.
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SELECT * FROM mail WHERE subject MATCH 'database'; -- Fast. Full-text query.
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} {}
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ddl_test 1.3.1.3 { DROP TABLE mail }
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ddl_test 1.3.2.1 { CREATE VIRTUAL TABLE mail USING fts3(subject, body) }
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write_test 1.3.2.2 mail_content {
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INSERT INTO mail(docid, subject, body)
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VALUES(1, 'software feedback', 'found it too slow')
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}
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write_test 1.3.2.3 mail_content {
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INSERT INTO mail(docid, subject, body)
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VALUES(2, 'software feedback', 'no feedback')
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}
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write_test 1.3.2.4 mail_content {
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INSERT INTO mail(docid, subject, body)
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VALUES(3, 'slow lunch order', 'was a software problem')
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}
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read_test 1.3.2.5 {
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SELECT * FROM mail WHERE subject MATCH 'software'
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} {{software feedback} {found it too slow} {software feedback} {no feedback}}
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read_test 1.3.2.6 {
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SELECT * FROM mail WHERE body MATCH 'feedback'
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} {{software feedback} {no feedback}}
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read_test 1.3.2.7 {
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SELECT * FROM mail WHERE mail MATCH 'software'
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} {{software feedback} {found it too slow} {software feedback} {no feedback} {slow lunch order} {was a software problem}}
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read_test 1.3.2.7 {
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SELECT * FROM mail WHERE mail MATCH 'slow'
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} {{software feedback} {found it too slow} {slow lunch order} {was a software problem}}
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ddl_test 1.3.2.8 { DROP TABLE mail }
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ddl_test 1.3.3.1 { CREATE VIRTUAL TABLE docs USING fts3(content) }
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read_test 1.3.3.2 { SELECT * FROM docs WHERE docs MATCH 'sqlite' } {}
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read_test 1.3.3.3 { SELECT * FROM docs WHERE docs.docs MATCH 'sqlite' } {}
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read_test 1.3.3.4 { SELECT * FROM docs WHERE main.docs.docs MATCH 'sqlite' } {}
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do_error_test e_fts3-1.3.3.5 {
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SELECT * FROM docs WHERE main.docs MATCH 'sqlite'
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} {no such column: main.docs}
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ddl_test 1.3.2.8 { DROP TABLE docs }
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##########################################################################
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# Test the examples in section 3 (full-text index queries).
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#
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ddl_test 1.4.1.1 { CREATE VIRTUAL TABLE docs USING fts3(title, body) }
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unset -nocomplain R
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foreach {tn title body} {
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2 "linux driver" "a device"
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3 "driver" "linguistic trick"
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4 "problems" "linux problems"
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5 "linux" "big problems"
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6 "linux driver" "a device driver problem"
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7 "good times" "applications for linux"
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8 "not so good" "linux applications"
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9 "alternative" "linoleum appliances"
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10 "no L I N" "to be seen"
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} {
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write_test 1.4.1.$tn docs_content { INSERT INTO docs VALUES($title,$body) }
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set R($tn) [list $title $body]
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}
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read_test 1.4.1.11 {
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SELECT * FROM docs WHERE docs MATCH 'linux'
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} [concat $R(2) $R(4) $R(5) $R(6) $R(7) $R(8)]
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read_test 1.4.1.12 {
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SELECT * FROM docs WHERE docs MATCH 'lin*'
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} [concat $R(2) $R(3) $R(4) $R(5) $R(6) $R(7) $R(8) $R(9)]
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read_test 1.4.1.13 {
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SELECT * FROM docs WHERE docs MATCH 'title:linux problems'
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} [concat $R(5)]
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read_test 1.4.1.14 {
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SELECT * FROM docs WHERE body MATCH 'title:linux driver'
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} [concat $R(6)]
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read_test 1.4.1.15 {
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SELECT * FROM docs WHERE docs MATCH '"linux applications"'
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} [concat $R(8)]
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read_test 1.4.1.16 {
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SELECT * FROM docs WHERE docs MATCH '"lin* app*"'
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} [concat $R(8) $R(9)]
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ddl_test 1.4.1.17 { DROP TABLE docs }
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unset R
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ddl_test 1.4.2.1 { CREATE VIRTUAL TABLE docs USING fts3() }
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write_test 1.4.2.2 docs_content {
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INSERT INTO docs VALUES(
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'SQLite is an ACID compliant embedded relational database management system')
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}
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foreach {tn query hit} {
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3 {SELECT * FROM docs WHERE docs MATCH 'sqlite NEAR database'} 1
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4 {SELECT * FROM docs WHERE docs MATCH 'database NEAR/6 sqlite'} 1
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5 {SELECT * FROM docs WHERE docs MATCH 'database NEAR/5 sqlite'} 0
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6 {SELECT * FROM docs WHERE docs MATCH 'database NEAR/2 "ACID compliant"'} 1
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7 {SELECT * FROM docs WHERE docs MATCH '"ACID compliant" NEAR/2 sqlite'} 1
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8 {SELECT * FROM docs WHERE docs MATCH 'sqlite NEAR/2 acid NEAR/2 relational'} 1
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9 {SELECT * FROM docs WHERE docs MATCH 'acid NEAR/2 sqlite NEAR/2 relational'} 0
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} {
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set res [db eval {SELECT * FROM docs WHERE $hit}]
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read_test 1.4.2.$tn $query $res
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}
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ddl_test 1.4.2.10 { DROP TABLE docs }
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##########################################################################
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# Test the example in section 3.1 (set operators with enhanced syntax).
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#
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set sqlite_fts3_enable_parentheses 1
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ddl_test 1.5.1.1 { CREATE VIRTUAL TABLE docs USING fts3() }
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foreach {tn docid content} {
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2 1 "a database is a software system"
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3 2 "sqlite is a software system"
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4 3 "sqlite is a database"
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} {
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set R($docid) $content
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write_test 1.5.1.$tn docs_content {
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INSERT INTO docs(docid, content) VALUES($docid, $content)
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}
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}
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read_test 1.5.1.4 {
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SELECT * FROM docs WHERE docs MATCH 'sqlite AND database'
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} [list $R(3)]
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read_test 1.5.1.5 {
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SELECT * FROM docs WHERE docs MATCH 'database sqlite'
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} [list $R(3)]
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read_test 1.5.1.6 {
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SELECT * FROM docs WHERE docs MATCH 'sqlite OR database'
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} [list $R(1) $R(2) $R(3)]
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read_test 1.5.1.7 {
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SELECT * FROM docs WHERE docs MATCH 'database NOT sqlite'
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} [list $R(1)]
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read_test 1.5.1.8 {
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SELECT * FROM docs WHERE docs MATCH 'database and sqlite'
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} {}
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write_test 1.5.2.1 docs_content {
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INSERT INTO docs
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SELECT 'sqlite is also a library' UNION ALL
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SELECT 'library software'
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}
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read_test 1.5.2.2 {
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SELECT docid FROM docs WHERE docs MATCH 'sqlite AND database OR library'
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} {3 4 5}
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read_test 1.5.2.3 {
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SELECT docid FROM docs WHERE docs MATCH 'sqlite AND database'
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UNION
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SELECT docid FROM docs WHERE docs MATCH 'library'
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} {3 4 5}
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write_test 1.5.2.4 docs_content {
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INSERT INTO docs
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SELECT 'the sqlite library runs on linux' UNION ALL
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SELECT 'as does the sqlite database (on linux)' UNION ALL
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SELECT 'the sqlite database is accessed by the sqlite library'
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}
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read_test 1.5.2.2 {
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SELECT docid FROM docs
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WHERE docs MATCH '("sqlite database" OR "sqlite library") AND linux';
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} {6 7}
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read_test 1.5.2.3 {
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SELECT docid FROM docs WHERE docs MATCH 'linux'
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INTERSECT
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SELECT docid FROM (
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SELECT docid FROM docs WHERE docs MATCH '"sqlite library"'
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UNION
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SELECT docid FROM docs WHERE docs MATCH '"sqlite database"'
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);
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} {6 7}
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##########################################################################
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# Test the examples in section 3.2 (set operators with standard syntax).
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# These tests reuse the table populated by the block above.
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#
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set sqlite_fts3_enable_parentheses 0
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read_test 1.6.1.1 {
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SELECT * FROM docs WHERE docs MATCH 'sqlite -database'
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} {{sqlite is a software system} {sqlite is also a library} {the sqlite library runs on linux}}
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read_test 1.6.1.2 {
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SELECT * FROM docs WHERE docs MATCH 'sqlite OR database library'
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} {{sqlite is also a library} {the sqlite library runs on linux} {the sqlite database is accessed by the sqlite library}}
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set sqlite_fts3_enable_parentheses 1
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read_test 1.6.1.3 {
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SELECT * FROM docs WHERE docs MATCH 'sqlite OR database library'
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} {{sqlite is a software system} {sqlite is a database} {sqlite is also a library} {the sqlite library runs on linux} {as does the sqlite database (on linux)} {the sqlite database is accessed by the sqlite library}}
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read_test 1.6.1.4 {
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SELECT * FROM docs WHERE docs MATCH '(sqlite OR database) library'
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} {{sqlite is also a library} {the sqlite library runs on linux} {the sqlite database is accessed by the sqlite library}}
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set sqlite_fts3_enable_parentheses 0
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ddl_test 1.6.1.5 { DROP TABLE docs }
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##########################################################################
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# Test the examples in section 4 (auxillary functions).
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#
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ddl_test 1.7.1.1 { CREATE VIRTUAL TABLE mail USING fts3(subject, body) }
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write_test 1.7.1.2 mail_content {
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INSERT INTO mail VALUES(
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'hello world', 'This message is a hello world message.');
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}
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write_test 1.7.1.3 mail_content {
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INSERT INTO mail VALUES(
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'urgent: serious', 'This mail is seen as a more serious mail');
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}
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read_test 1.7.1.4 {
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SELECT offsets(mail) FROM mail WHERE mail MATCH 'world';
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} {{0 0 6 5 1 0 24 5}}
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read_test 1.7.1.5 {
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SELECT offsets(mail) FROM mail WHERE mail MATCH 'message'
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} {{1 0 5 7 1 0 30 7}}
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read_test 1.7.1.6 {
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SELECT offsets(mail) FROM mail WHERE mail MATCH '"serious mail"'
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} {{1 0 28 7 1 1 36 4}}
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ddl_test 1.7.2.1 { CREATE VIRTUAL TABLE text USING fts3() }
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write_test 1.7.2.2 text_content {
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INSERT INTO text VALUES('
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During 30 Nov-1 Dec, 2-3oC drops. Cool in the upper portion, minimum temperature 14-16oC and cool elsewhere, minimum temperature 17-20oC. Cold to very cold on mountaintops, minimum temperature 6-12oC. Northeasterly winds 15-30 km/hr. After that, temperature increases. Northeasterly winds 15-30 km/hr.
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');
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}
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read_test 1.7.2.3 {
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SELECT snippet(text) FROM text WHERE text MATCH 'cold'
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|
} {{<b>...</b>cool elsewhere, minimum temperature 17-20oC. <b>Cold</b> to very <b>cold</b> on mountaintops, minimum temperature 6<b>...</b>}}
|
|
|
|
read_test 1.7.2.4 {
|
|
SELECT snippet(text, '[', ']', '...') FROM text WHERE text MATCH '"min* tem*"'
|
|
} {{...the upper portion, [minimum] [temperature] 14-16oC and cool elsewhere, [minimum] [temperature] 17-20oC. Cold...}}
|
|
|
|
ddl_test 1.7.3.1 { DROP TABLE IF EXISTS t1 }
|
|
ddl_test 1.7.3.2 { CREATE VIRTUAL TABLE t1 USING fts3(a, b) }
|
|
write_test 1.7.3.3 t1_content {
|
|
INSERT INTO t1 VALUES(
|
|
'transaction default models default', 'Non transaction reads');
|
|
}
|
|
write_test 1.7.3.4 t1_content {
|
|
INSERT INTO t1 VALUES('the default transaction', 'these semantics present');
|
|
}
|
|
write_test 1.7.3.5 t1_content {
|
|
INSERT INTO t1 VALUES('single request', 'default data');
|
|
}
|
|
read_test 1.7.3.6 {
|
|
SELECT mit(matchinfo(t1)) FROM t1
|
|
WHERE t1 MATCH 'default transaction "these semantics"';
|
|
} {{3 2 1 3 2 0 1 1 1 2 2 0 1 1 0 0 0 1 1 1}}
|
|
|
|
##########################################################################
|
|
# Test the example in section 5 (custom tokenizers).
|
|
#
|
|
ddl_test 1.8.1.1 { CREATE VIRTUAL TABLE simple USING fts3(tokenize=simple) }
|
|
write_test 1.8.1.2 simple_content {
|
|
INSERT INTO simple VALUES('Right now they''re very frustrated')
|
|
}
|
|
read_test 1.8.1.3 {SELECT docid FROM simple WHERE simple MATCH 'Frustrated'} {1}
|
|
read_test 1.8.1.4 {SELECT docid FROM simple WHERE simple MATCH 'Frustration'} {}
|
|
|
|
ddl_test 1.8.2.1 { CREATE VIRTUAL TABLE porter USING fts3(tokenize=porter) }
|
|
write_test 1.8.2.2 porter_content {
|
|
INSERT INTO porter VALUES('Right now they''re very frustrated')
|
|
}
|
|
read_test 1.8.2.4 {
|
|
SELECT docid FROM porter WHERE porter MATCH 'Frustration'
|
|
} {1}
|
|
|
|
}
|
|
# End of tests of example code in fts3.html
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test that errors in the arguments passed to the snippet and offsets
|
|
# functions are handled correctly.
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 2.1.0 { DROP TABLE IF EXISTS t1 }
|
|
ddl_test 2.1.1 { CREATE VIRTUAL TABLE t1 USING fts3(a, b) }
|
|
write_test 2.1.2 t1_content {
|
|
INSERT INTO t1 VALUES('one two three', x'A1B2C3D4E5F6');
|
|
}
|
|
error_test 2.1.3 {
|
|
SELECT offsets(a) FROM t1 WHERE a MATCH 'one'
|
|
} {illegal first argument to offsets}
|
|
error_test 2.1.4 {
|
|
SELECT offsets(b) FROM t1 WHERE a MATCH 'one'
|
|
} {illegal first argument to offsets}
|
|
error_test 2.1.5 {
|
|
SELECT optimize(a) FROM t1 LIMIT 1
|
|
} {illegal first argument to optimize}
|
|
error_test 2.1.6 {
|
|
SELECT snippet(a) FROM t1 WHERE a MATCH 'one'
|
|
} {illegal first argument to snippet}
|
|
error_test 2.1.7 {
|
|
SELECT snippet() FROM t1 WHERE a MATCH 'one'
|
|
} {unable to use function snippet in the requested context}
|
|
error_test 2.1.8 {
|
|
SELECT snippet(a, b, 'A', 'B', 'C', 'D', 'E') FROM t1 WHERE a MATCH 'one'
|
|
} {wrong number of arguments to function snippet()}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test the effect of an OOM error while installing the FTS3 module (i.e.
|
|
# opening a database handle). This case was not tested by the OOM testing
|
|
# of the document examples above.
|
|
#
|
|
do_malloc_test e_fts3-3 -tclbody {
|
|
if {[catch {sqlite3 db test.db}]} { error "out of memory" }
|
|
}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Verify the return values of the optimize() function. If no error occurs,
|
|
# the returned value should be "Index optimized" if the data structure
|
|
# was modified, or "Index already optimal" if it were not.
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 4.1 { CREATE VIRTUAL TABLE t4 USING fts3(a, b) }
|
|
write_test 4.2 t4_content {
|
|
INSERT INTO t4 VALUES('In Xanadu', 'did Kubla Khan');
|
|
}
|
|
write_test 4.3 t4_content {
|
|
INSERT INTO t4 VALUES('a stately pleasure', 'dome decree');
|
|
}
|
|
do_test e_fts3-4.4 {
|
|
execsql { SELECT optimize(t4) FROM t4 LIMIT 1 }
|
|
} {{Index optimized}}
|
|
do_test e_fts3-4.5 {
|
|
execsql { SELECT optimize(t4) FROM t4 LIMIT 1 }
|
|
} {{Index already optimal}}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test that the snippet function appears to work correctly with 1, 2, 3
|
|
# or 4 arguments passed to it.
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 5.1 { CREATE VIRTUAL TABLE t5 USING fts3(x) }
|
|
write_test 5.2 t5_content {
|
|
INSERT INTO t5 VALUES('In Xanadu did Kubla Khan A stately pleasure-dome decree Where Alph, the sacred river, ran Through caverns measureless to man Down to a sunless sea. So twice five miles of fertile ground With walls and towers were girdled round : And there were gardens bright with sinuous rills, Where blossomed many an incense-bearing tree ; And here were forests ancient as the hills, Enfolding sunny spots of greenery.');
|
|
}
|
|
read_test 5.3 {
|
|
SELECT snippet(t5) FROM t5 WHERE t5 MATCH 'miles'
|
|
} {{<b>...</b>to a sunless sea. So twice five <b>miles</b> of fertile ground With walls and towers<b>...</b>}}
|
|
read_test 5.4 {
|
|
SELECT snippet(t5, '<i>') FROM t5 WHERE t5 MATCH 'miles'
|
|
} {{<b>...</b>to a sunless sea. So twice five <i>miles</b> of fertile ground With walls and towers<b>...</b>}}
|
|
read_test 5.5 {
|
|
SELECT snippet(t5, '<i>', '</i>') FROM t5 WHERE t5 MATCH 'miles'
|
|
} {{<b>...</b>to a sunless sea. So twice five <i>miles</i> of fertile ground With walls and towers<b>...</b>}}
|
|
read_test 5.6 {
|
|
SELECT snippet(t5, '<i>', '</i>', 'XXX') FROM t5 WHERE t5 MATCH 'miles'
|
|
} {{XXXto a sunless sea. So twice five <i>miles</i> of fertile ground With walls and towersXXX}}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test that an empty MATCH expression returns an empty result set. As
|
|
# does passing a NULL value as a MATCH expression.
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 6.1 { CREATE VIRTUAL TABLE t6 USING fts3(x) }
|
|
write_test 6.2 t5_content { INSERT INTO t6 VALUES('a'); }
|
|
write_test 6.3 t5_content { INSERT INTO t6 VALUES('b'); }
|
|
write_test 6.4 t5_content { INSERT INTO t6 VALUES('c'); }
|
|
read_test 6.5 { SELECT * FROM t6 WHERE t6 MATCH '' } {}
|
|
read_test 6.6 { SELECT * FROM t6 WHERE x MATCH '' } {}
|
|
read_test 6.7 { SELECT * FROM t6 WHERE t6 MATCH NULL } {}
|
|
read_test 6.8 { SELECT * FROM t6 WHERE x MATCH NULL } {}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test a few facets of the FTS3 xFilter() callback implementation:
|
|
#
|
|
# 1. That the sqlite3_index_constraint.usable flag is respected.
|
|
#
|
|
# 2. That it is an error to use the "docid" or "rowid" column of
|
|
# an FTS3 table as the LHS of a MATCH operator.
|
|
#
|
|
# 3. That it is an error to AND together two MATCH expressions in
|
|
# that refer to a single FTS3 table in a WHERE clause.
|
|
#
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 7.1.1 { CREATE VIRTUAL TABLE t7 USING fts3(a) }
|
|
ddl_test 7.1.2 { CREATE VIRTUAL TABLE t8 USING fts3(b) }
|
|
write_test 7.1.3 t7_content { INSERT INTO t7(docid, a) VALUES(4,'number four') }
|
|
write_test 7.1.4 t7_content { INSERT INTO t7(docid, a) VALUES(5,'number five') }
|
|
write_test 7.1.5 t8_content { INSERT INTO t8(docid, b) VALUES(4,'letter D') }
|
|
write_test 7.1.6 t8_content { INSERT INTO t8(docid, b) VALUES(5,'letter E') }
|
|
read_test 7.1.7 {
|
|
SELECT a || ':' || b FROM t7 JOIN t8 USING(docid)
|
|
} {{number four:letter D} {number five:letter E}}
|
|
|
|
error_test 7.2.1 {
|
|
SELECT * FROM t7 WHERE docid MATCH 'number'
|
|
} {unable to use function MATCH in the requested context}
|
|
error_test 7.2.2 {
|
|
SELECT * FROM t7 WHERE rowid MATCH 'number'
|
|
} {unable to use function MATCH in the requested context}
|
|
|
|
error_test 7.3.1 {
|
|
SELECT * FROM t7 WHERE a MATCH 'number' AND a MATCH 'four'
|
|
} {unable to use function MATCH in the requested context}
|
|
error_test 7.3.2 {
|
|
SELECT * FROM t7, t8 WHERE a MATCH 'number' AND a MATCH 'four'
|
|
} {unable to use function MATCH in the requested context}
|
|
error_test 7.3.3 {
|
|
SELECT * FROM t7, t8 WHERE b MATCH 'letter' AND b MATCH 'd'
|
|
} {unable to use function MATCH in the requested context}
|
|
read_test 7.3.4 {
|
|
SELECT * FROM t7, t8 WHERE a MATCH 'number' AND b MATCH 'letter'
|
|
} {{number four} {letter D} {number four} {letter E} {number five} {letter D} {number five} {letter E}}
|
|
read_test 7.3.5 {
|
|
SELECT * FROM t7 WHERE a MATCH 'number' AND docid = 4
|
|
} {{number four}}
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test the quoting of FTS3 table column names. Names may be quoted using
|
|
# any of "", '', ``` or [].
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 8.1.1 { CREATE VIRTUAL TABLE t9a USING fts3("c1", [c2]) }
|
|
ddl_test 8.1.2 { CREATE VIRTUAL TABLE t9b USING fts3('c1', `c2`) }
|
|
read_test 8.1.3 { PRAGMA table_info(t9a) } {0 c1 {} 0 {} 0 1 c2 {} 0 {} 0}
|
|
read_test 8.1.4 { PRAGMA table_info(t9b) } {0 c1 {} 0 {} 0 1 c2 {} 0 {} 0}
|
|
ddl_test 8.2.1 { CREATE VIRTUAL TABLE t9c USING fts3("c""1", 'c''2') }
|
|
read_test 8.2.2 { PRAGMA table_info(t9c) } {0 c\"1 {} 0 {} 0 1 c'2 {} 0 {} 0}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test that FTS3 tables can be renamed using the ALTER RENAME command.
|
|
# OOM errors are tested during ALTER RENAME commands also.
|
|
#
|
|
foreach DO_MALLOC_TEST {0 1 2} {
|
|
db close
|
|
forcedelete test.db test.db-journal
|
|
sqlite3 db test.db
|
|
if {$DO_MALLOC_TEST} { sqlite3_db_config_lookaside db 0 0 0 }
|
|
|
|
ddl_test 9.1.1 { CREATE VIRTUAL TABLE t10 USING fts3(x) }
|
|
write_test 9.1.2 t10_content { INSERT INTO t10 VALUES('fts3 tables') }
|
|
write_test 9.1.3 t10_content { INSERT INTO t10 VALUES('are renameable') }
|
|
|
|
read_test 9.1.4 {
|
|
SELECT * FROM t10 WHERE t10 MATCH 'table*'
|
|
} {{fts3 tables}}
|
|
read_test 9.1.5 {
|
|
SELECT * FROM t10 WHERE x MATCH 'rename*'
|
|
} {{are renameable}}
|
|
|
|
ddl_test 9.1.6 { ALTER TABLE t10 RENAME TO t11 }
|
|
|
|
read_test 9.1.7 {
|
|
SELECT * FROM t11 WHERE t11 MATCH 'table*'
|
|
} {{fts3 tables}}
|
|
read_test 9.1.8 {
|
|
SELECT * FROM t11 WHERE x MATCH 'rename*'
|
|
} {{are renameable}}
|
|
}
|
|
#-------------------------------------------------------------------------
|
|
|
|
#-------------------------------------------------------------------------
|
|
# Test a couple of cases involving corrupt data structures:
|
|
#
|
|
# 1) A case where a document referenced by the full-text index is
|
|
# not present in the %_content table.
|
|
#
|
|
# 2) A badly formatted b-tree segment node.
|
|
#
|
|
set DO_MALLOC_TEST 0
|
|
ddl_test 10.1.1 { CREATE VIRTUAL TABLE ta USING fts3 }
|
|
write_test 10.1.2 ta_content {
|
|
INSERT INTO ta VALUES('During a summer vacation in 1790') }
|
|
write_test 10.1.3 ta_content {
|
|
INSERT INTO ta VALUES('Wordsworth went on a walking tour') }
|
|
sqlite3_db_config db DEFENSIVE 0
|
|
write_test 10.1.4 ta_content { DELETE FROM ta_content WHERE rowid = 2 }
|
|
read_test 10.1.5 {
|
|
SELECT * FROM ta WHERE ta MATCH 'summer'
|
|
} {{During a summer vacation in 1790}}
|
|
error_test 10.1.6 {
|
|
SELECT * FROM ta WHERE ta MATCH 'walking'
|
|
} {database disk image is malformed}
|
|
|
|
write_test 10.2.1 ta_content { DELETE FROM ta }
|
|
write_test 10.2.2 ta_content {
|
|
INSERT INTO ta VALUES('debate demonstrated the rising difficulty') }
|
|
write_test 10.2.3 ta_content {
|
|
INSERT INTO ta VALUES('Google released its browser beta') }
|
|
|
|
set blob [db one {SELECT root FROM ta_segdir WHERE rowid = 2}]
|
|
binary scan $blob "a6 a3 a*" start middle end
|
|
set middle "\x0E\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x06\x06"
|
|
set blob [binary format "a6 a* a*" $start $middle $end]
|
|
write_test 10.2.4 ta_segdir {
|
|
UPDATE ta_segdir SET root = $blob WHERE rowid = 2
|
|
}
|
|
error_test 10.2.5 {
|
|
SELECT * FROM ta WHERE ta MATCH 'beta'
|
|
} {database disk image is malformed}
|
|
|
|
|
|
finish_test
|