third_party/sqlite/src/test/boundary4.tcl - cobalt - Git at Google

 puts {# 2008 December 11
 #
 # The author disclaims copyright to this source code.  In place of
 # a legal notice, here is a blessing:
 #
 #    May you do good and not evil.
 #    May you find forgiveness for yourself and forgive others.
 #    May you share freely, never taking more than you give.
 #
 #***********************************************************************
 # This file implements regression tests for SQLite library.
 #
 # This file is automatically generated from a separate TCL script.
 # This file seeks to exercise integer boundary values.
 #
 # $Id: boundary4.tcl,v 1.3 2009/01/02 15:45:48 shane Exp $

 set testdir [file dirname $argv0]
 source $testdir/tester.tcl

 # Many of the boundary tests depend on a working 64-bit implementation.
 if {![working_64bit_int]} { finish_test; return }
 ifcapable !altertable     { finish_test; return }
 }

 expr srand(0)

 # Generate interesting boundary numbers
 #
 foreach x {
   0x7f
   0x7fff
   0x7fffff
   0x7fffffff
   0x7fffffffff
   0x7fffffffffff
   0x7fffffffffffff
   0x7fffffffffffffff
 } {
   set x [expr {wide($x)}]
   set boundarynum($x) 1
   set boundarynum([expr {$x+1}]) 1
   set boundarynum([expr {-($x+1)}]) 1
   set boundarynum([expr {-($x+2)}]) 1
   set boundarynum([expr {$x+$x+1}]) 1
   set boundarynum([expr {$x+$x+2}]) 1
 }
 set x [expr {wide(127)}]
 for {set i 127} {$i<=9} {incr i} {
   set boundarynum($x) 1
   set boundarynum([expr {$x+1}]) 1
   set x [expr {wide($x*128 + 127)}]
 }

 # Scramble the $inlist into a random order.
 #
 proc scramble {inlist} {
   set y {}
   foreach x $inlist {
     lappend y [list [expr {rand()}] $x]
   }
   set y [lsort $y]
   set outlist {}
   foreach x $y {
     lappend outlist [lindex $x 1]
   }
   return $outlist
 }

 # A simple selection sort.  Not trying to be efficient.
 #
 proc sort {inlist} {
   set outlist {}
   set mn [lindex $inlist 0]
   foreach x $inlist {
     if {$x<$mn} {set mn $x}
   }
   set outlist $mn
   set mx $mn
   while {1} {
     set valid 0
     foreach x $inlist {
       if {$x>$mx && (!$valid || $mn>$x)} {
         set mn $x
         set valid 1
       }
     }
     if {!$valid} break
     lappend outlist $mn
     set mx $mn
   }
   return $outlist
 }

 # Reverse the order of a list
 #
 proc reverse {inlist} {
   set i [llength $inlist]
   set outlist {}
   for {incr i -1} {$i>=0} {incr i -1} {
     lappend outlist [lindex $inlist $i]
   }
   return $outlist
 }

 set nums1 [scramble [array names boundarynum]]
 set nums2 [scramble [array names boundarynum]]

 set tname boundary4
 puts "do_test $tname-1.1 \173"
 puts "  db eval \173"
 puts "    CREATE TABLE t1(a,x);"
 set a 0
 set all_rowid {}
 set all_a {}
 set all_x {}
 foreach r $nums1 {
   incr a
   set t1ra($r) $a
   set t1ar($a) $r
   set x [format %08x%08x [expr {wide($r)>>32}] $r]
   set t1rx($r) $x
   set t1xr($x) $r
   puts "    INSERT INTO t1(oid,a,x) VALUES($r,$a,'$x');"
   lappend all_rowid $r
   lappend all_a $a
   lappend all_x $x
 }
 puts "    CREATE INDEX t1i1 ON t1(a);"
 puts "    CREATE INDEX t1i2 ON t1(x);"
 puts "  \175"
 puts "\175 {}"

 puts "do_test $tname-1.2 \173"
 puts "  db eval \173"
 puts "    SELECT count(*) FROM t1"
 puts "  \175"
 puts "\175 {[llength $nums1]}"

 proc maketest {tnum sql answer} {
   puts "do_test $::tname-$tnum \173"
   puts "  db eval \173"
   puts "    $sql"
   puts "  \175"
   puts "\175 {$answer}"
 }

 set ans {}
 foreach r [sort $all_rowid] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 1.3 {SELECT rowid, a, x FROM t1 ORDER BY +rowid} $ans
 maketest 1.4 {SELECT rowid, a, x FROM t1 ORDER BY rowid} $ans

 set ans {}
 foreach r [reverse [sort $all_rowid]] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 1.5 {SELECT rowid, a, x FROM t1 ORDER BY +rowid DESC} $ans
 maketest 1.6 {SELECT rowid, a, x FROM t1 ORDER BY rowid DESC} $ans

 set ans {}
 foreach a [sort $all_a] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 1.7 {SELECT rowid, a, x FROM t1 ORDER BY +a} $ans
 maketest 1.8 {SELECT rowid, a, x FROM t1 ORDER BY a} $ans

 set ans {}
 foreach a [reverse [sort $all_a]] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 1.9 {SELECT rowid, a, x FROM t1 ORDER BY +a DESC} $ans
 maketest 1.10 {SELECT rowid, a, x FROM t1 ORDER BY a DESC} $ans

 set ans {}
 foreach x [sort $all_x] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 1.11 {SELECT rowid, a, x FROM t1 ORDER BY +x} $ans
 maketest 1.12 {SELECT rowid, a, x FROM t1 ORDER BY x} $ans

 set ans {}
 foreach x [reverse [sort $all_x]] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 1.13 {SELECT rowid, a, x FROM t1 ORDER BY +x DESC} $ans
 maketest 1.14 {SELECT rowid, a, x FROM t1 ORDER BY x DESC} $ans

 maketest 2.1 {UPDATE t1 SET rowid=a, a=rowid} {}

 set ans {}
 foreach r [sort $all_rowid] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 2.3 {SELECT a, rowid, x FROM t1 ORDER BY +a} $ans
 maketest 2.4 {SELECT a, rowid, x FROM t1 ORDER BY a} $ans

 set ans {}
 foreach r [reverse [sort $all_rowid]] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 2.5 {SELECT a, rowid, x FROM t1 ORDER BY +a DESC} $ans
 maketest 2.6 {SELECT a, rowid, x FROM t1 ORDER BY a DESC} $ans

 set ans {}
 foreach a [sort $all_a] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 2.7 {SELECT a, rowid, x FROM t1 ORDER BY +rowid} $ans
 maketest 2.8 {SELECT a, rowid, x FROM t1 ORDER BY rowid} $ans

 set ans {}
 foreach a [reverse [sort $all_a]] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 2.9 {SELECT a, rowid, x FROM t1 ORDER BY +rowid DESC} $ans
 maketest 2.10 {SELECT a, rowid, x FROM t1 ORDER BY rowid DESC} $ans

 set ans {}
 foreach x [sort $all_x] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 2.11 {SELECT a, rowid, x FROM t1 ORDER BY +x} $ans
 maketest 2.12 {SELECT a, rowid, x FROM t1 ORDER BY x} $ans

 set ans {}
 foreach x [reverse [sort $all_x]] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 2.13 {SELECT a, rowid, x FROM t1 ORDER BY +x DESC} $ans
 maketest 2.14 {SELECT a, rowid, x FROM t1 ORDER BY x DESC} $ans

 maketest 3.1 {UPDATE t1 SET rowid=a, a=rowid} {}
 maketest 3.2 {ALTER TABLE t1 ADD COLUMN z; UPDATE t1 SET z=zeroblob(600)} {}

 set ans {}
 foreach r [sort $all_rowid] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 3.3 {SELECT rowid, a, x FROM t1 ORDER BY +rowid} $ans
 maketest 3.4 {SELECT rowid, a, x FROM t1 ORDER BY rowid} $ans

 set ans {}
 foreach r [reverse [sort $all_rowid]] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 3.5 {SELECT rowid, a, x FROM t1 ORDER BY +rowid DESC} $ans
 maketest 3.6 {SELECT rowid, a, x FROM t1 ORDER BY rowid DESC} $ans

 set ans {}
 foreach a [sort $all_a] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 3.7 {SELECT rowid, a, x FROM t1 ORDER BY +a} $ans
 maketest 3.8 {SELECT rowid, a, x FROM t1 ORDER BY a} $ans

 set ans {}
 foreach a [reverse [sort $all_a]] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 3.9 {SELECT rowid, a, x FROM t1 ORDER BY +a DESC} $ans
 maketest 3.10 {SELECT rowid, a, x FROM t1 ORDER BY a DESC} $ans

 set ans {}
 foreach x [sort $all_x] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 3.11 {SELECT rowid, a, x FROM t1 ORDER BY +x} $ans
 maketest 3.12 {SELECT rowid, a, x FROM t1 ORDER BY x} $ans

 set ans {}
 foreach x [reverse [sort $all_x]] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 3.13 {SELECT rowid, a, x FROM t1 ORDER BY +x DESC} $ans
 maketest 3.14 {SELECT rowid, a, x FROM t1 ORDER BY x DESC} $ans


 maketest 4.1 {UPDATE t1 SET rowid=a, a=rowid, x=z, z=x} {}

 set ans {}
 foreach r [sort $all_rowid] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 4.3 {SELECT a, rowid, z FROM t1 ORDER BY +a} $ans
 maketest 4.4 {SELECT a, rowid, z FROM t1 ORDER BY a} $ans

 set ans {}
 foreach r [reverse [sort $all_rowid]] {
   lappend ans $r $t1ra($r) $t1rx($r)
 }
 maketest 4.5 {SELECT a, rowid, z FROM t1 ORDER BY +a DESC} $ans
 maketest 4.6 {SELECT a, rowid, z FROM t1 ORDER BY a DESC} $ans

 set ans {}
 foreach a [sort $all_a] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 4.7 {SELECT a, rowid, z FROM t1 ORDER BY +rowid} $ans
 maketest 4.8 {SELECT a, rowid, z FROM t1 ORDER BY rowid} $ans

 set ans {}
 foreach a [reverse [sort $all_a]] {
   set r $t1ar($a)
   lappend ans $r $a $t1rx($r)
 }
 maketest 4.9 {SELECT a, rowid, z FROM t1 ORDER BY +rowid DESC} $ans
 maketest 4.10 {SELECT a, rowid, z FROM t1 ORDER BY rowid DESC} $ans

 set ans {}
 foreach x [sort $all_x] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 4.11 {SELECT a, rowid, z FROM t1 ORDER BY +z} $ans
 maketest 4.12 {SELECT a, rowid, z FROM t1 ORDER BY z} $ans

 set ans {}
 foreach x [reverse [sort $all_x]] {
   set r $t1xr($x)
   lappend ans $r $t1ra($r) $x
 }
 maketest 4.13 {SELECT a, rowid, z FROM t1 ORDER BY +z DESC} $ans
 maketest 4.14 {SELECT a, rowid, z FROM t1 ORDER BY z DESC} $ans

 puts {finish_test}
	puts {# 2008 December 11
	#
	# The author disclaims copyright to this source code. In place of
	# a legal notice, here is a blessing:
	#
	# May you do good and not evil.
	# May you find forgiveness for yourself and forgive others.
	# May you share freely, never taking more than you give.
	#
	#***********************************************************************
	# This file implements regression tests for SQLite library.
	#
	# This file is automatically generated from a separate TCL script.
	# This file seeks to exercise integer boundary values.
	#
	# $Id: boundary4.tcl,v 1.3 2009/01/02 15:45:48 shane Exp $

	set testdir [file dirname $argv0]
	source $testdir/tester.tcl

	# Many of the boundary tests depend on a working 64-bit implementation.
	if {![working_64bit_int]} { finish_test; return }
	ifcapable !altertable { finish_test; return }
	}

	expr srand(0)

	# Generate interesting boundary numbers
	#
	foreach x {
	0x7f
	0x7fff
	0x7fffff
	0x7fffffff
	0x7fffffffff
	0x7fffffffffff
	0x7fffffffffffff
	0x7fffffffffffffff
	} {
	set x [expr {wide($x)}]
	set boundarynum($x) 1
	set boundarynum([expr {$x+1}]) 1
	set boundarynum([expr {-($x+1)}]) 1
	set boundarynum([expr {-($x+2)}]) 1
	set boundarynum([expr {$x+$x+1}]) 1
	set boundarynum([expr {$x+$x+2}]) 1
	}
	set x [expr {wide(127)}]
	for {set i 127} {$i<=9} {incr i} {
	set boundarynum($x) 1
	set boundarynum([expr {$x+1}]) 1
	set x [expr {wide($x*128 + 127)}]
	}

	# Scramble the $inlist into a random order.
	#
	proc scramble {inlist} {
	set y {}
	foreach x $inlist {
	lappend y [list [expr {rand()}] $x]
	}
	set y [lsort $y]
	set outlist {}
	foreach x $y {
	lappend outlist [lindex $x 1]
	}
	return $outlist
	}

	# A simple selection sort. Not trying to be efficient.
	#
	proc sort {inlist} {
	set outlist {}
	set mn [lindex $inlist 0]
	foreach x $inlist {
	if {$x<$mn} {set mn $x}
	}
	set outlist $mn
	set mx $mn
	while {1} {
	set valid 0
	foreach x $inlist {
	if {$x>$mx && (!$valid \|\| $mn>$x)} {
	set mn $x
	set valid 1
	}
	}
	if {!$valid} break
	lappend outlist $mn
	set mx $mn
	}
	return $outlist
	}

	# Reverse the order of a list
	#
	proc reverse {inlist} {
	set i [llength $inlist]
	set outlist {}
	for {incr i -1} {$i>=0} {incr i -1} {
	lappend outlist [lindex $inlist $i]
	}
	return $outlist
	}

	set nums1 [scramble [array names boundarynum]]
	set nums2 [scramble [array names boundarynum]]

	set tname boundary4
	puts "do_test $tname-1.1 \173"
	puts " db eval \173"
	puts " CREATE TABLE t1(a,x);"
	set a 0
	set all_rowid {}
	set all_a {}
	set all_x {}
	foreach r $nums1 {
	incr a
	set t1ra($r) $a
	set t1ar($a) $r
	set x [format %08x%08x [expr {wide($r)>>32}] $r]
	set t1rx($r) $x
	set t1xr($x) $r
	puts " INSERT INTO t1(oid,a,x) VALUES($r,$a,'$x');"
	lappend all_rowid $r
	lappend all_a $a
	lappend all_x $x
	}
	puts " CREATE INDEX t1i1 ON t1(a);"
	puts " CREATE INDEX t1i2 ON t1(x);"
	puts " \175"
	puts "\175 {}"

	puts "do_test $tname-1.2 \173"
	puts " db eval \173"
	puts " SELECT count(*) FROM t1"
	puts " \175"
	puts "\175 {[llength $nums1]}"

	proc maketest {tnum sql answer} {
	puts "do_test $::tname-$tnum \173"
	puts " db eval \173"
	puts " $sql"
	puts " \175"
	puts "\175 {$answer}"
	}

	set ans {}
	foreach r [sort $all_rowid] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 1.3 {SELECT rowid, a, x FROM t1 ORDER BY +rowid} $ans
	maketest 1.4 {SELECT rowid, a, x FROM t1 ORDER BY rowid} $ans

	set ans {}
	foreach r [reverse [sort $all_rowid]] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 1.5 {SELECT rowid, a, x FROM t1 ORDER BY +rowid DESC} $ans
	maketest 1.6 {SELECT rowid, a, x FROM t1 ORDER BY rowid DESC} $ans

	set ans {}
	foreach a [sort $all_a] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 1.7 {SELECT rowid, a, x FROM t1 ORDER BY +a} $ans
	maketest 1.8 {SELECT rowid, a, x FROM t1 ORDER BY a} $ans

	set ans {}
	foreach a [reverse [sort $all_a]] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 1.9 {SELECT rowid, a, x FROM t1 ORDER BY +a DESC} $ans
	maketest 1.10 {SELECT rowid, a, x FROM t1 ORDER BY a DESC} $ans

	set ans {}
	foreach x [sort $all_x] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 1.11 {SELECT rowid, a, x FROM t1 ORDER BY +x} $ans
	maketest 1.12 {SELECT rowid, a, x FROM t1 ORDER BY x} $ans

	set ans {}
	foreach x [reverse [sort $all_x]] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 1.13 {SELECT rowid, a, x FROM t1 ORDER BY +x DESC} $ans
	maketest 1.14 {SELECT rowid, a, x FROM t1 ORDER BY x DESC} $ans

	maketest 2.1 {UPDATE t1 SET rowid=a, a=rowid} {}

	set ans {}
	foreach r [sort $all_rowid] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 2.3 {SELECT a, rowid, x FROM t1 ORDER BY +a} $ans
	maketest 2.4 {SELECT a, rowid, x FROM t1 ORDER BY a} $ans

	set ans {}
	foreach r [reverse [sort $all_rowid]] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 2.5 {SELECT a, rowid, x FROM t1 ORDER BY +a DESC} $ans
	maketest 2.6 {SELECT a, rowid, x FROM t1 ORDER BY a DESC} $ans

	set ans {}
	foreach a [sort $all_a] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 2.7 {SELECT a, rowid, x FROM t1 ORDER BY +rowid} $ans
	maketest 2.8 {SELECT a, rowid, x FROM t1 ORDER BY rowid} $ans

	set ans {}
	foreach a [reverse [sort $all_a]] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 2.9 {SELECT a, rowid, x FROM t1 ORDER BY +rowid DESC} $ans
	maketest 2.10 {SELECT a, rowid, x FROM t1 ORDER BY rowid DESC} $ans

	set ans {}
	foreach x [sort $all_x] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 2.11 {SELECT a, rowid, x FROM t1 ORDER BY +x} $ans
	maketest 2.12 {SELECT a, rowid, x FROM t1 ORDER BY x} $ans

	set ans {}
	foreach x [reverse [sort $all_x]] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 2.13 {SELECT a, rowid, x FROM t1 ORDER BY +x DESC} $ans
	maketest 2.14 {SELECT a, rowid, x FROM t1 ORDER BY x DESC} $ans

	maketest 3.1 {UPDATE t1 SET rowid=a, a=rowid} {}
	maketest 3.2 {ALTER TABLE t1 ADD COLUMN z; UPDATE t1 SET z=zeroblob(600)} {}

	set ans {}
	foreach r [sort $all_rowid] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 3.3 {SELECT rowid, a, x FROM t1 ORDER BY +rowid} $ans
	maketest 3.4 {SELECT rowid, a, x FROM t1 ORDER BY rowid} $ans

	set ans {}
	foreach r [reverse [sort $all_rowid]] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 3.5 {SELECT rowid, a, x FROM t1 ORDER BY +rowid DESC} $ans
	maketest 3.6 {SELECT rowid, a, x FROM t1 ORDER BY rowid DESC} $ans

	set ans {}
	foreach a [sort $all_a] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 3.7 {SELECT rowid, a, x FROM t1 ORDER BY +a} $ans
	maketest 3.8 {SELECT rowid, a, x FROM t1 ORDER BY a} $ans

	set ans {}
	foreach a [reverse [sort $all_a]] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 3.9 {SELECT rowid, a, x FROM t1 ORDER BY +a DESC} $ans
	maketest 3.10 {SELECT rowid, a, x FROM t1 ORDER BY a DESC} $ans

	set ans {}
	foreach x [sort $all_x] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 3.11 {SELECT rowid, a, x FROM t1 ORDER BY +x} $ans
	maketest 3.12 {SELECT rowid, a, x FROM t1 ORDER BY x} $ans

	set ans {}
	foreach x [reverse [sort $all_x]] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 3.13 {SELECT rowid, a, x FROM t1 ORDER BY +x DESC} $ans
	maketest 3.14 {SELECT rowid, a, x FROM t1 ORDER BY x DESC} $ans


	maketest 4.1 {UPDATE t1 SET rowid=a, a=rowid, x=z, z=x} {}

	set ans {}
	foreach r [sort $all_rowid] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 4.3 {SELECT a, rowid, z FROM t1 ORDER BY +a} $ans
	maketest 4.4 {SELECT a, rowid, z FROM t1 ORDER BY a} $ans

	set ans {}
	foreach r [reverse [sort $all_rowid]] {
	lappend ans $r $t1ra($r) $t1rx($r)
	}
	maketest 4.5 {SELECT a, rowid, z FROM t1 ORDER BY +a DESC} $ans
	maketest 4.6 {SELECT a, rowid, z FROM t1 ORDER BY a DESC} $ans

	set ans {}
	foreach a [sort $all_a] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 4.7 {SELECT a, rowid, z FROM t1 ORDER BY +rowid} $ans
	maketest 4.8 {SELECT a, rowid, z FROM t1 ORDER BY rowid} $ans

	set ans {}
	foreach a [reverse [sort $all_a]] {
	set r $t1ar($a)
	lappend ans $r $a $t1rx($r)
	}
	maketest 4.9 {SELECT a, rowid, z FROM t1 ORDER BY +rowid DESC} $ans
	maketest 4.10 {SELECT a, rowid, z FROM t1 ORDER BY rowid DESC} $ans

	set ans {}
	foreach x [sort $all_x] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 4.11 {SELECT a, rowid, z FROM t1 ORDER BY +z} $ans
	maketest 4.12 {SELECT a, rowid, z FROM t1 ORDER BY z} $ans

	set ans {}
	foreach x [reverse [sort $all_x]] {
	set r $t1xr($x)
	lappend ans $r $t1ra($r) $x
	}
	maketest 4.13 {SELECT a, rowid, z FROM t1 ORDER BY +z DESC} $ans
	maketest 4.14 {SELECT a, rowid, z FROM t1 ORDER BY z DESC} $ans

	puts {finish_test}