8df447f0e6
of type real, though an integer representation is still sometimes used internally for efficiency. (CVS 2753) FossilOrigin-Name: e0d6f61c7de2c03b8fd17ef37cf1a0add36ee618
230 lines
6.1 KiB
Plaintext
230 lines
6.1 KiB
Plaintext
#
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# 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. The
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# focus of this script is page cache subsystem.
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#
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# $Id: collate1.test,v 1.4 2005/11/01 15:48:25 drh Exp $
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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#
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# Tests are roughly organised as follows:
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#
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# collate1-1.* - Single-field ORDER BY with an explicit COLLATE clause.
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# collate1-2.* - Multi-field ORDER BY with an explicit COLLATE clause.
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# collate1-3.* - ORDER BY using a default collation type. Also that an
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# explict collate type overrides a default collate type.
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# collate1-4.* - ORDER BY using a data type.
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#
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#
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# Collation type 'HEX'. If an argument can be interpreted as a hexadecimal
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# number, then it is converted to one before the comparison is performed.
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# Numbers are less than other strings. If neither argument is a number,
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# [string compare] is used.
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#
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db collate HEX hex_collate
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proc hex_collate {lhs rhs} {
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set lhs_ishex [regexp {^(0x|)[1234567890abcdefABCDEF]+$} $lhs]
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set rhs_ishex [regexp {^(0x|)[1234567890abcdefABCDEF]+$} $rhs]
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if {$lhs_ishex && $rhs_ishex} {
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set lhsx [scan $lhs %x]
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set rhsx [scan $rhs %x]
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if {$lhs < $rhs} {return -1}
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if {$lhs == $rhs} {return 0}
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if {$lhs > $rhs} {return 1}
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}
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if {$lhs_ishex} {
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return -1;
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}
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if {$rhs_ishex} {
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return 1;
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}
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return [string compare $lhs $rhs]
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}
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db function hex {format 0x%X}
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# Mimic the SQLite 2 collation type NUMERIC.
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db collate numeric numeric_collate
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proc numeric_collate {lhs rhs} {
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if {$lhs == $rhs} {return 0}
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return [expr ($lhs>$rhs)?1:-1]
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}
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do_test collate1-1.0 {
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execsql {
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CREATE TABLE collate1t1(c1, c2);
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INSERT INTO collate1t1 VALUES(45, hex(45));
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INSERT INTO collate1t1 VALUES(NULL, NULL);
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INSERT INTO collate1t1 VALUES(281, hex(281));
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}
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} {}
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do_test collate1-1.1 {
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execsql {
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SELECT c2 FROM collate1t1 ORDER BY 1;
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}
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} {{} 0x119 0x2D}
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do_test collate1-1.2 {
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execsql {
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SELECT c2 FROM collate1t1 ORDER BY 1 COLLATE hex;
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}
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} {{} 0x2D 0x119}
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do_test collate1-1.3 {
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execsql {
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SELECT c2 FROM collate1t1 ORDER BY 1 COLLATE hex DESC;
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}
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} {0x119 0x2D {}}
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do_test collate1-1.4 {
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execsql {
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SELECT c2 FROM collate1t1 ORDER BY 1 COLLATE hex ASC;
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}
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} {{} 0x2D 0x119}
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do_test collate1-1.5 {
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execsql {
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DROP TABLE collate1t1;
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}
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} {}
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do_test collate1-2.0 {
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execsql {
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CREATE TABLE collate1t1(c1, c2);
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INSERT INTO collate1t1 VALUES('5', '0x11');
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INSERT INTO collate1t1 VALUES('5', '0xA');
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INSERT INTO collate1t1 VALUES(NULL, NULL);
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INSERT INTO collate1t1 VALUES('7', '0xA');
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INSERT INTO collate1t1 VALUES('11', '0x11');
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INSERT INTO collate1t1 VALUES('11', '0x101');
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}
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} {}
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do_test collate1-2.2 {
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execsql {
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SELECT c1, c2 FROM collate1t1 ORDER BY 1 COLLATE numeric, 2 COLLATE hex;
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}
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} {{} {} 5 0xA 5 0x11 7 0xA 11 0x11 11 0x101}
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do_test collate1-2.3 {
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execsql {
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SELECT c1, c2 FROM collate1t1 ORDER BY 1 COLLATE binary, 2 COLLATE hex;
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}
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} {{} {} 11 0x11 11 0x101 5 0xA 5 0x11 7 0xA}
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do_test collate1-2.4 {
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execsql {
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SELECT c1, c2 FROM collate1t1 ORDER BY 1 COLLATE binary DESC, 2 COLLATE hex;
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}
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} {7 0xA 5 0xA 5 0x11 11 0x11 11 0x101 {} {}}
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do_test collate1-2.5 {
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execsql {
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SELECT c1, c2 FROM collate1t1
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ORDER BY 1 COLLATE binary DESC, 2 COLLATE hex DESC;
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}
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} {7 0xA 5 0x11 5 0xA 11 0x101 11 0x11 {} {}}
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do_test collate1-2.6 {
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execsql {
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SELECT c1, c2 FROM collate1t1
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ORDER BY 1 COLLATE binary ASC, 2 COLLATE hex ASC;
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}
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} {{} {} 11 0x11 11 0x101 5 0xA 5 0x11 7 0xA}
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do_test collate1-2.7 {
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execsql {
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DROP TABLE collate1t1;
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}
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} {}
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#
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# These tests ensure that the default collation type for a column is used
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# by an ORDER BY clause correctly. The focus is all the different ways
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# the column can be referenced. i.e. a, collate2t1.a, main.collate2t1.a etc.
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#
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do_test collate1-3.0 {
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execsql {
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CREATE TABLE collate1t1(a COLLATE hex, b);
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INSERT INTO collate1t1 VALUES( '0x5', 5 );
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INSERT INTO collate1t1 VALUES( '1', 1 );
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INSERT INTO collate1t1 VALUES( '0x45', 69 );
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INSERT INTO collate1t1 VALUES( NULL, NULL );
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SELECT * FROM collate1t1 ORDER BY a;
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}
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} {{} {} 1 1 0x5 5 0x45 69}
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do_test collate1-3.1 {
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execsql {
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SELECT * FROM collate1t1 ORDER BY 1;
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}
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} {{} {} 1 1 0x5 5 0x45 69}
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do_test collate1-3.2 {
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execsql {
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SELECT * FROM collate1t1 ORDER BY collate1t1.a;
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}
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} {{} {} 1 1 0x5 5 0x45 69}
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do_test collate1-3.3 {
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execsql {
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SELECT * FROM collate1t1 ORDER BY main.collate1t1.a;
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}
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} {{} {} 1 1 0x5 5 0x45 69}
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do_test collate1-3.4 {
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execsql {
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SELECT a as c1, b as c2 FROM collate1t1 ORDER BY c1;
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}
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} {{} {} 1 1 0x5 5 0x45 69}
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do_test collate1-3.5 {
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execsql {
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SELECT a as c1, b as c2 FROM collate1t1 ORDER BY c1 COLLATE binary;
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}
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} {{} {} 0x45 69 0x5 5 1 1}
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do_test collate1-3.6 {
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execsql {
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DROP TABLE collate1t1;
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}
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} {}
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# Update for SQLite version 3. The collate1-4.* test cases were written
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# before manifest types were introduced. The following test cases still
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# work, due to the 'affinity' mechanism, but they don't prove anything
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# about collation sequences.
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#
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do_test collate1-4.0 {
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execsql {
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CREATE TABLE collate1t1(c1 numeric, c2 text);
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INSERT INTO collate1t1 VALUES(1, 1);
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INSERT INTO collate1t1 VALUES(12, 12);
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INSERT INTO collate1t1 VALUES(NULL, NULL);
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INSERT INTO collate1t1 VALUES(101, 101);
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}
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} {}
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do_test collate1-4.1 {
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execsql {
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SELECT c1 FROM collate1t1 ORDER BY 1;
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}
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} {{} 1 12 101}
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do_test collate1-4.2 {
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execsql {
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SELECT c2 FROM collate1t1 ORDER BY 1;
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}
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} {{} 1 101 12}
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do_test collate1-4.3 {
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execsql {
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SELECT c2+0 FROM collate1t1 ORDER BY 1;
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}
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} {{} 1 12 101}
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do_test collate1-4.4 {
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execsql {
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SELECT c1||'' FROM collate1t1 ORDER BY 1;
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}
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} {{} 1 101 12}
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do_test collate1-4.5 {
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execsql {
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DROP TABLE collate1t1;
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}
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} {}
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finish_test
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