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646 lines
14 KiB
Plaintext
646 lines
14 KiB
Plaintext
# 2001 September 15
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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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# This file implements regression tests for SQLite library.
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#
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# This file implements tests for the special processing associated
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# with INTEGER PRIMARY KEY columns.
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#
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# $Id: intpkey.test,v 1.24 2007/11/29 17:43:28 danielk1977 Exp $
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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# Create a table with a primary key and a datatype other than
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# integer
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#
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do_test intpkey-1.0 {
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execsql {
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CREATE TABLE t1(a TEXT PRIMARY KEY, b, c);
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}
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} {}
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# There should be an index associated with the primary key
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#
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do_test intpkey-1.1 {
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execsql {
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SELECT name FROM sqlite_master
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WHERE type='index' AND tbl_name='t1';
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}
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} {sqlite_autoindex_t1_1}
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# Now create a table with an integer primary key and verify that
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# there is no associated index.
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#
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do_test intpkey-1.2 {
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execsql {
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DROP TABLE t1;
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CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c);
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SELECT name FROM sqlite_master
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WHERE type='index' AND tbl_name='t1';
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}
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} {}
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# Insert some records into the new table. Specify the primary key
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# and verify that the key is used as the record number.
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#
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do_test intpkey-1.3 {
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execsql {
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INSERT INTO t1 VALUES(5,'hello','world');
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}
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db last_insert_rowid
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} {5}
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do_test intpkey-1.4 {
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execsql {
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SELECT * FROM t1;
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}
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} {5 hello world}
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do_test intpkey-1.5 {
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execsql {
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SELECT rowid, * FROM t1;
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}
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} {5 5 hello world}
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# Attempting to insert a duplicate primary key should give a constraint
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# failure.
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#
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do_test intpkey-1.6 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES(5,'second','entry');
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}} msg]
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lappend r $msg
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} {1 {UNIQUE constraint failed: t1.a}}
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do_test intpkey-1.7 {
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execsql {
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SELECT rowid, * FROM t1;
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}
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} {5 5 hello world}
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do_test intpkey-1.8 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES(6,'second','entry');
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}} msg]
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lappend r $msg
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} {0 {}}
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do_test intpkey-1.8.1 {
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db last_insert_rowid
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} {6}
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do_test intpkey-1.9 {
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execsql {
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SELECT rowid, * FROM t1;
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}
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} {5 5 hello world 6 6 second entry}
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# A ROWID is automatically generated for new records that do not specify
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# the integer primary key.
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#
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do_test intpkey-1.10 {
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execsql {
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INSERT INTO t1(b,c) VALUES('one','two');
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SELECT b FROM t1 ORDER BY b;
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}
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} {hello one second}
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# Try to change the ROWID for the new entry.
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#
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do_test intpkey-1.11 {
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execsql {
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UPDATE t1 SET a=4 WHERE b='one';
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SELECT * FROM t1;
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}
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} {4 one two 5 hello world 6 second entry}
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# Make sure SELECT statements are able to use the primary key column
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# as an index.
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#
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do_test intpkey-1.12.1 {
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execsql {
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SELECT * FROM t1 WHERE a==4;
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}
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} {4 one two}
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do_test intpkey-1.12.2 {
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execsql {
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EXPLAIN QUERY PLAN
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SELECT * FROM t1 WHERE a==4;
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}
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} {/SEARCH t1 /}
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# Try to insert a non-integer value into the primary key field. This
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# should result in a data type mismatch.
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#
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do_test intpkey-1.13.1 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES('x','y','z');
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}} msg]
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lappend r $msg
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} {1 {datatype mismatch}}
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do_test intpkey-1.13.2 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES('','y','z');
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}} msg]
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lappend r $msg
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} {1 {datatype mismatch}}
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do_test intpkey-1.14 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES(3.4,'y','z');
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}} msg]
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lappend r $msg
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} {1 {datatype mismatch}}
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do_test intpkey-1.15 {
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set r [catch {execsql {
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INSERT INTO t1 VALUES(-3,'y','z');
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}} msg]
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lappend r $msg
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} {0 {}}
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do_test intpkey-1.16 {
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execsql {SELECT * FROM t1}
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} {-3 y z 4 one two 5 hello world 6 second entry}
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#### INDICES
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# Check to make sure indices work correctly with integer primary keys
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#
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do_test intpkey-2.1 {
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execsql {
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CREATE INDEX i1 ON t1(b);
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SELECT * FROM t1 WHERE b=='y'
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}
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} {-3 y z}
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do_test intpkey-2.1.1 {
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execsql {
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SELECT * FROM t1 WHERE b=='y' AND rowid<0
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}
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} {-3 y z}
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do_test intpkey-2.1.2 {
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execsql {
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SELECT * FROM t1 WHERE b=='y' AND rowid<0 AND rowid>=-20
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}
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} {-3 y z}
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do_test intpkey-2.1.3 {
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execsql {
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SELECT * FROM t1 WHERE b>='y'
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}
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} {-3 y z}
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do_test intpkey-2.1.4 {
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execsql {
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SELECT * FROM t1 WHERE b>='y' AND rowid<10
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}
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} {-3 y z}
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do_test intpkey-2.2 {
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execsql {
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UPDATE t1 SET a=8 WHERE b=='y';
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SELECT * FROM t1 WHERE b=='y';
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}
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} {8 y z}
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do_test intpkey-2.3 {
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execsql {
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SELECT rowid, * FROM t1;
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}
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} {4 4 one two 5 5 hello world 6 6 second entry 8 8 y z}
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do_test intpkey-2.4 {
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execsql {
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SELECT rowid, * FROM t1 WHERE b<'second'
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}
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} {5 5 hello world 4 4 one two}
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do_test intpkey-2.4.1 {
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execsql {
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SELECT rowid, * FROM t1 WHERE 'second'>b
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}
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} {5 5 hello world 4 4 one two}
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do_test intpkey-2.4.2 {
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execsql {
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SELECT rowid, * FROM t1 WHERE 8>rowid AND 'second'>b
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}
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} {4 4 one two 5 5 hello world}
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do_test intpkey-2.4.3 {
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execsql {
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SELECT rowid, * FROM t1 WHERE 8>rowid AND 'second'>b AND 0<rowid
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}
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} {4 4 one two 5 5 hello world}
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do_test intpkey-2.5 {
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execsql {
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SELECT rowid, * FROM t1 WHERE b>'a'
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}
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} {5 5 hello world 4 4 one two 6 6 second entry 8 8 y z}
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do_test intpkey-2.6 {
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execsql {
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DELETE FROM t1 WHERE rowid=4;
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SELECT * FROM t1 WHERE b>'a';
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}
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} {5 hello world 6 second entry 8 y z}
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do_test intpkey-2.7 {
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execsql {
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UPDATE t1 SET a=-4 WHERE rowid=8;
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SELECT * FROM t1 WHERE b>'a';
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}
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} {5 hello world 6 second entry -4 y z}
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do_test intpkey-2.7 {
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execsql {
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SELECT * FROM t1
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}
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} {-4 y z 5 hello world 6 second entry}
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# Do an SQL statement. Append the search count to the end of the result.
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#
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proc count sql {
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set ::sqlite_search_count 0
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return [concat [execsql $sql] $::sqlite_search_count]
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}
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# Create indices that include the integer primary key as one of their
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# columns.
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#
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do_test intpkey-3.1 {
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execsql {
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CREATE INDEX i2 ON t1(a);
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}
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} {}
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do_test intpkey-3.2 {
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count {
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SELECT * FROM t1 WHERE a=5;
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}
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} {5 hello world 0}
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do_test intpkey-3.3 {
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count {
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SELECT * FROM t1 WHERE a>4 AND a<6;
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}
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} {5 hello world 2}
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do_test intpkey-3.4 {
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count {
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SELECT * FROM t1 WHERE b>='hello' AND b<'hello2';
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}
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} {5 hello world 3}
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do_test intpkey-3.5 {
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execsql {
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CREATE INDEX i3 ON t1(c,a);
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}
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} {}
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do_test intpkey-3.6 {
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count {
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SELECT * FROM t1 WHERE c=='world';
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}
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} {5 hello world 3}
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do_test intpkey-3.7 {
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execsql {INSERT INTO t1 VALUES(11,'hello','world')}
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count {
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SELECT * FROM t1 WHERE c=='world';
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}
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} {5 hello world 11 hello world 5}
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do_test intpkey-3.8 {
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count {
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SELECT * FROM t1 WHERE c=='world' AND a>7;
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}
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} {11 hello world 3}
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do_test intpkey-3.9 {
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count {
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SELECT * FROM t1 WHERE 7<a;
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}
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} {11 hello world 1}
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# Test inequality constraints on integer primary keys and rowids
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#
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do_test intpkey-4.1 {
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count {
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SELECT * FROM t1 WHERE 11=rowid
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}
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} {11 hello world 0}
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do_test intpkey-4.2 {
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count {
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SELECT * FROM t1 WHERE 11=rowid AND b=='hello'
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}
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} {11 hello world 0}
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do_test intpkey-4.3 {
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count {
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SELECT * FROM t1 WHERE 11=rowid AND b=='hello' AND c IS NOT NULL;
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}
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} {11 hello world 0}
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do_test intpkey-4.4 {
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count {
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SELECT * FROM t1 WHERE rowid==11
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}
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} {11 hello world 0}
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do_test intpkey-4.5 {
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count {
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SELECT * FROM t1 WHERE oid==11 AND b=='hello'
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}
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} {11 hello world 0}
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do_test intpkey-4.6 {
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count {
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SELECT * FROM t1 WHERE a==11 AND b=='hello' AND c IS NOT NULL;
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}
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} {11 hello world 0}
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do_test intpkey-4.7 {
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count {
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SELECT * FROM t1 WHERE 8<rowid;
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}
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} {11 hello world 1}
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do_test intpkey-4.8 {
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count {
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SELECT * FROM t1 WHERE 8<rowid AND 11>=oid;
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}
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} {11 hello world 1}
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do_test intpkey-4.9 {
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count {
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SELECT * FROM t1 WHERE 11<=_rowid_ AND 12>=a;
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}
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} {11 hello world 1}
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do_test intpkey-4.10 {
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count {
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SELECT * FROM t1 WHERE 0>=_rowid_;
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}
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} {-4 y z 1}
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do_test intpkey-4.11 {
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count {
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SELECT * FROM t1 WHERE a<0;
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}
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} {-4 y z 1}
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do_test intpkey-4.12 {
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count {
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SELECT * FROM t1 WHERE a<0 AND a>10;
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}
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} {1}
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# Make sure it is OK to insert a rowid of 0
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#
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do_test intpkey-5.1 {
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execsql {
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INSERT INTO t1 VALUES(0,'zero','entry');
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}
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count {
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SELECT * FROM t1 WHERE a=0;
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}
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} {0 zero entry 0}
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do_test intpkey-5.2 {
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execsql {
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SELECT rowid, a FROM t1 ORDER BY rowid
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}
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} {-4 -4 0 0 5 5 6 6 11 11}
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# Test the ability of the COPY command to put data into a
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# table that contains an integer primary key.
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#
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# COPY command has been removed. But we retain these tests so
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# that the tables will contain the right data for tests that follow.
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#
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do_test intpkey-6.1 {
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execsql {
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BEGIN;
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INSERT INTO t1 VALUES(20,'b-20','c-20');
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INSERT INTO t1 VALUES(21,'b-21','c-21');
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INSERT INTO t1 VALUES(22,'b-22','c-22');
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COMMIT;
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SELECT * FROM t1 WHERE a>=20;
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}
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} {20 b-20 c-20 21 b-21 c-21 22 b-22 c-22}
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do_test intpkey-6.2 {
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execsql {
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SELECT * FROM t1 WHERE b=='hello'
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}
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} {5 hello world 11 hello world}
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do_test intpkey-6.3 {
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execsql {
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DELETE FROM t1 WHERE b='b-21';
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SELECT * FROM t1 WHERE b=='b-21';
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}
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} {}
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do_test intpkey-6.4 {
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execsql {
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SELECT * FROM t1 WHERE a>=20
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}
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} {20 b-20 c-20 22 b-22 c-22}
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# Do an insert of values with the columns specified out of order.
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#
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do_test intpkey-7.1 {
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execsql {
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INSERT INTO t1(c,b,a) VALUES('row','new',30);
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SELECT * FROM t1 WHERE rowid>=30;
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}
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} {30 new row}
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do_test intpkey-7.2 {
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execsql {
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SELECT * FROM t1 WHERE rowid>20;
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}
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} {22 b-22 c-22 30 new row}
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# Do an insert from a select statement.
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#
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do_test intpkey-8.1 {
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execsql {
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CREATE TABLE t2(x INTEGER PRIMARY KEY, y, z);
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INSERT INTO t2 SELECT * FROM t1;
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SELECT rowid FROM t2;
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}
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} {-4 0 5 6 11 20 22 30}
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do_test intpkey-8.2 {
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execsql {
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SELECT x FROM t2;
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}
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} {-4 0 5 6 11 20 22 30}
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do_test intpkey-9.1 {
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execsql {
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UPDATE t1 SET c='www' WHERE c='world';
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SELECT rowid, a, c FROM t1 WHERE c=='www';
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}
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} {5 5 www 11 11 www}
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# Check insert of NULL for primary key
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#
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do_test intpkey-10.1 {
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execsql {
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DROP TABLE t2;
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CREATE TABLE t2(x INTEGER PRIMARY KEY, y, z);
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INSERT INTO t2 VALUES(NULL, 1, 2);
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SELECT * from t2;
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}
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} {1 1 2}
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do_test intpkey-10.2 {
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execsql {
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INSERT INTO t2 VALUES(NULL, 2, 3);
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SELECT * from t2 WHERE x=2;
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}
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} {2 2 3}
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do_test intpkey-10.3 {
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execsql {
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INSERT INTO t2 SELECT NULL, z, y FROM t2;
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SELECT * FROM t2;
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}
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} {1 1 2 2 2 3 3 2 1 4 3 2}
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# This tests checks to see if a floating point number can be used
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# to reference an integer primary key.
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#
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do_test intpkey-11.1 {
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execsql {
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SELECT b FROM t1 WHERE a=2.0+3.0;
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}
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} {hello}
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do_test intpkey-11.1 {
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execsql {
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SELECT b FROM t1 WHERE a=2.0+3.5;
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}
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} {}
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integrity_check intpkey-12.1
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# Try to use a string that looks like a floating point number as
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# an integer primary key. This should actually work when the floating
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# point value can be rounded to an integer without loss of data.
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#
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do_test intpkey-13.1 {
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execsql {
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SELECT * FROM t1 WHERE a=1;
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}
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} {}
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do_test intpkey-13.2 {
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execsql {
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INSERT INTO t1 VALUES('1.0',2,3);
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SELECT * FROM t1 WHERE a=1;
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}
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} {1 2 3}
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do_test intpkey-13.3 {
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catchsql {
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INSERT INTO t1 VALUES('1.5',3,4);
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}
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} {1 {datatype mismatch}}
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ifcapable {bloblit} {
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do_test intpkey-13.4 {
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catchsql {
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INSERT INTO t1 VALUES(x'123456',3,4);
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}
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} {1 {datatype mismatch}}
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}
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do_test intpkey-13.5 {
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catchsql {
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INSERT INTO t1 VALUES('+1234567890',3,4);
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}
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} {0 {}}
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# Compare an INTEGER PRIMARY KEY against a TEXT expression. The INTEGER
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# affinity should be applied to the text value before the comparison
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# takes place.
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#
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do_test intpkey-14.1 {
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execsql {
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CREATE TABLE t3(a INTEGER PRIMARY KEY, b INTEGER, c TEXT);
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INSERT INTO t3 VALUES(1, 1, 'one');
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INSERT INTO t3 VALUES(2, 2, '2');
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INSERT INTO t3 VALUES(3, 3, 3);
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}
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} {}
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do_test intpkey-14.2 {
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execsql {
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SELECT * FROM t3 WHERE a>2;
|
|
}
|
|
} {3 3 3}
|
|
do_test intpkey-14.3 {
|
|
execsql {
|
|
SELECT * FROM t3 WHERE a>'2';
|
|
}
|
|
} {3 3 3}
|
|
do_test intpkey-14.4 {
|
|
execsql {
|
|
SELECT * FROM t3 WHERE a<'2';
|
|
}
|
|
} {1 1 one}
|
|
do_test intpkey-14.5 {
|
|
execsql {
|
|
SELECT * FROM t3 WHERE a<c;
|
|
}
|
|
} {1 1 one}
|
|
do_test intpkey-14.6 {
|
|
execsql {
|
|
SELECT * FROM t3 WHERE a=c;
|
|
}
|
|
} {2 2 2 3 3 3}
|
|
|
|
# Check for proper handling of primary keys greater than 2^31.
|
|
# Ticket #1188
|
|
#
|
|
do_test intpkey-15.1 {
|
|
execsql {
|
|
INSERT INTO t1 VALUES(2147483647, 'big-1', 123);
|
|
SELECT * FROM t1 WHERE a>2147483648;
|
|
}
|
|
} {}
|
|
do_test intpkey-15.2 {
|
|
execsql {
|
|
INSERT INTO t1 VALUES(NULL, 'big-2', 234);
|
|
SELECT b FROM t1 WHERE a>=2147483648;
|
|
}
|
|
} {big-2}
|
|
do_test intpkey-15.3 {
|
|
execsql {
|
|
SELECT b FROM t1 WHERE a>2147483648;
|
|
}
|
|
} {}
|
|
do_test intpkey-15.4 {
|
|
execsql {
|
|
SELECT b FROM t1 WHERE a>=2147483647;
|
|
}
|
|
} {big-1 big-2}
|
|
do_test intpkey-15.5 {
|
|
execsql {
|
|
SELECT b FROM t1 WHERE a<2147483648;
|
|
}
|
|
} {y zero 2 hello second hello b-20 b-22 new 3 big-1}
|
|
do_test intpkey-15.6 {
|
|
execsql {
|
|
SELECT b FROM t1 WHERE a<12345678901;
|
|
}
|
|
} {y zero 2 hello second hello b-20 b-22 new 3 big-1 big-2}
|
|
do_test intpkey-15.7 {
|
|
execsql {
|
|
SELECT b FROM t1 WHERE a>12345678901;
|
|
}
|
|
} {}
|
|
|
|
# 2016-04-18 ticket https://www.sqlite.org/src/tktview/7d7525cb01b68712495d3a
|
|
# Be sure to escape quoted typenames.
|
|
#
|
|
do_execsql_test intpkey-16.0 {
|
|
CREATE TABLE t16a(id "INTEGER" PRIMARY KEY AUTOINCREMENT, b [TEXT], c `INT`);
|
|
} {}
|
|
do_execsql_test intpkey-16.1 {
|
|
PRAGMA table_info=t16a;
|
|
} {0 id INTEGER 0 {} 1 1 b TEXT 0 {} 0 2 c INT 0 {} 0}
|
|
|
|
# 2016-05-06 ticket https://www.sqlite.org/src/tktview/16c9801ceba4923939085
|
|
# When the schema contains an index on the IPK and no other index
|
|
# and a WHERE clause on a delete uses an OR where both sides referencing
|
|
# the IPK, then it is possible that the OP_Delete will fail because there
|
|
# deferred seek of the OP_Seek is not resolved prior to reaching the OP_Delete.
|
|
#
|
|
do_execsql_test intpkey-17.0 {
|
|
CREATE TABLE t17(x INTEGER PRIMARY KEY, y TEXT);
|
|
INSERT INTO t17(x,y) VALUES(123,'elephant'),(248,'giraffe');
|
|
CREATE INDEX t17x ON t17(x);
|
|
DELETE FROM t17 WHERE x=99 OR x<130;
|
|
SELECT * FROM t17;
|
|
} {248 giraffe}
|
|
do_execsql_test intpkey-17.1 {
|
|
DROP INDEX t17x;
|
|
DELETE FROM t17;
|
|
INSERT INTO t17(x,y) VALUES(123,'elephant'),(248,'giraffe');
|
|
CREATE UNIQUE INDEX t17x ON t17(abs(x));
|
|
DELETE FROM t17 WHERE abs(x) IS NULL OR abs(x)<130;
|
|
SELECT * FROM t17;
|
|
} {248 giraffe}
|
|
do_execsql_test intpkey-17.2 {
|
|
DELETE FROM t17;
|
|
INSERT INTO t17(x,y) VALUES(123,'elephant'),(248,'giraffe');
|
|
UPDATE t17 SET y='ostrich' WHERE abs(x)=248;
|
|
SELECT * FROM t17 ORDER BY +x;
|
|
} {123 elephant 248 ostrich}
|
|
|
|
finish_test
|