third_party/sqlite/src/test/nan.test - mojo-tools - Git at Google

 # 2008 April 28
 #
 # 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.
 #
 #***********************************************************************
 #
 # Ticket #3060
 #
 # Make sure IEEE floating point NaN values are handled properly.
 # SQLite should always convert NaN into NULL.
 #
 # Also verify that the decimal to IEEE754 binary conversion routines
 # correctly generate 0.0, +Inf, and -Inf as appropriate for numbers
 # out of range.
 #
 # $Id: nan.test,v 1.5 2008/09/18 11:30:13 danielk1977 Exp $
 #

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

 # Do not use a codec for tests in this file, as the database file is
 # manipulated directly using tcl scripts (using the [hexio_write] command).
 #
 do_not_use_codec

 do_test nan-1.1.1 {
   db eval {
     PRAGMA auto_vacuum=OFF;
     PRAGMA page_size=1024;
     CREATE TABLE t1(x FLOAT);
   }
   set ::STMT [sqlite3_prepare db "INSERT INTO t1 VALUES(?)" -1 TAIL]
   sqlite3_bind_double $::STMT 1 NaN
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}
 if {$tcl_platform(platform) != "symbian"} {
   do_realnum_test nan-1.1.2 {
     sqlite3_bind_double $::STMT 1 +Inf
     sqlite3_step $::STMT
     sqlite3_reset $::STMT
     db eval {SELECT x, typeof(x) FROM t1}
   } {{} null inf real}
   do_realnum_test nan-1.1.3 {
     sqlite3_bind_double $::STMT 1 -Inf
     sqlite3_step $::STMT
     sqlite3_reset $::STMT
     db eval {SELECT x, typeof(x) FROM t1}
   } {{} null inf real -inf real}
   do_realnum_test nan-1.1.4 {
     sqlite3_bind_double $::STMT 1 -NaN
     sqlite3_step $::STMT
     sqlite3_reset $::STMT
     db eval {SELECT x, typeof(x) FROM t1}
   } {{} null inf real -inf real {} null}
   do_realnum_test nan-1.1.5 {
     sqlite3_bind_double $::STMT 1 NaN0
     sqlite3_step $::STMT
     sqlite3_reset $::STMT
     db eval {SELECT x, typeof(x) FROM t1}
   } {{} null inf real -inf real {} null {} null}
   do_realnum_test nan-1.1.6 {
     sqlite3_bind_double $::STMT 1 -NaN0
     sqlite3_step $::STMT
     sqlite3_reset $::STMT
     db eval {SELECT x, typeof(x) FROM t1}
   } {{} null inf real -inf real {} null {} null {} null}
   do_test nan-1.1.7 {
     db eval {
       UPDATE t1 SET x=x-x;
       SELECT x, typeof(x) FROM t1;
     }
   } {{} null {} null {} null {} null {} null {} null}
 }

 # The following block of tests, nan-1.2.*, are the same as the nan-1.1.*
 # tests above, except that the SELECT queries used to validate data
 # convert floating point values to text internally before returning them
 # to Tcl. This allows the tests to be run on platforms where Tcl has
 # problems converting "inf" and "-inf" from floating point to text format.
 # It also tests the internal float->text conversion routines a bit.
 #
 do_test nan-1.2.1 {
   db eval {
     DELETE FROM T1;
   }
   sqlite3_bind_double $::STMT 1 NaN
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null}
 do_test nan-1.2.2 {
   sqlite3_bind_double $::STMT 1 +Inf
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null Inf real}
 do_test nan-1.2.3 {
   sqlite3_bind_double $::STMT 1 -Inf
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null Inf real -Inf real}
 do_test nan-1.2.4 {
   sqlite3_bind_double $::STMT 1 -NaN
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null Inf real -Inf real {} null}
 do_test nan-1.2.5 {
   sqlite3_bind_double $::STMT 1 NaN0
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null Inf real -Inf real {} null {} null}
 do_test nan-1.2.6 {
   sqlite3_bind_double $::STMT 1 -NaN0
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {{} null Inf real -Inf real {} null {} null {} null}
 do_test nan-1.2.7 {
   db eval {
     UPDATE t1 SET x=x-x;
     SELECT CAST(x AS text), typeof(x) FROM t1;
   }
 } {{} null {} null {} null {} null {} null {} null}

 do_test nan-2.1 {
   db eval {
     DELETE FROM T1;
   }
   sqlite3_bind_double $::STMT 1 NaN
   sqlite3_step $::STMT
   sqlite3_reset $::STMT
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}
 sqlite3_finalize $::STMT

 # SQLite always converts NaN into NULL so it is not possible to write
 # a NaN value into the database file using SQLite.  The following series
 # of tests writes a normal floating point value (0.5) into the database,
 # then writes directly into the database file to change the 0.5 into NaN.
 # Then it reads the value of the database to verify it is converted into
 # NULL.
 #
 do_test nan-3.1 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES(0.5);
     PRAGMA auto_vacuum=OFF;
     PRAGMA page_size=1024;
     VACUUM;
   }
   hexio_read test.db 2040 8
 } {3FE0000000000000}
 do_test nan-3.2 {
   db eval {
     SELECT x, typeof(x) FROM t1
   }
 } {0.5 real}
 do_test nan-3.3 {
   db close
   hexio_write test.db 2040 FFF8000000000000
   sqlite3 db test.db
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}
 do_test nan-3.4 {
   db close
   hexio_write test.db 2040 7FF8000000000000
   sqlite3 db test.db
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}
 do_test nan-3.5 {
   db close
   hexio_write test.db 2040 FFFFFFFFFFFFFFFF
   sqlite3 db test.db
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}
 do_test nan-3.6 {
   db close
   hexio_write test.db 2040 7FFFFFFFFFFFFFFF
   sqlite3 db test.db
   db eval {SELECT x, typeof(x) FROM t1}
 } {{} null}

 # Verify that the sqlite3AtoF routine is able to handle extreme
 # numbers.
 #
 do_test nan-4.1 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES([string repeat 9 307].0)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {1e+307 real}
 do_test nan-4.2 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES([string repeat 9 308].0)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {1e+308 real}
 do_test nan-4.3 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES(-[string repeat 9 307].0)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {-1e+307 real}
 do_test nan-4.4 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES(-[string repeat 9 308].0)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {-1e+308 real}
 do_test nan-4.5 {
   db eval {DELETE FROM t1}
   set big -[string repeat 0 10000][string repeat 9 308].[string repeat 0 10000]
   db eval "INSERT INTO t1 VALUES($big)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {-1e+308 real}
 do_test nan-4.6 {
   db eval {DELETE FROM t1}
   set big [string repeat 0 10000][string repeat 9 308].[string repeat 0 10000]
   db eval "INSERT INTO t1 VALUES($big)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {1e+308 real}

 if {$tcl_platform(platform) != "symbian"} {
   # Do not run these tests on Symbian, as the Tcl port doesn't like to
   # convert from floating point value "-inf" to a string.
   #
   do_realnum_test nan-4.7 {
     db eval {DELETE FROM t1}
     db eval "INSERT INTO t1 VALUES([string repeat 9 309].0)"
     db eval {SELECT x, typeof(x) FROM t1}
   } {inf real}
   do_realnum_test nan-4.8 {
     db eval {DELETE FROM t1}
     db eval "INSERT INTO t1 VALUES(-[string repeat 9 309].0)"
     db eval {SELECT x, typeof(x) FROM t1}
   } {-inf real}
 }
 do_test nan-4.9 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES([string repeat 9 309].0)"
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {Inf real}
 do_test nan-4.10 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES(-[string repeat 9 309].0)"
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {-Inf real}

 do_test nan-4.11 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES(1234.5[string repeat 0 10000]12345)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {1234.5 real}
 do_test nan-4.12 {
   db eval {DELETE FROM t1}
   db eval "INSERT INTO t1 VALUES(-1234.5[string repeat 0 10000]12345)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {-1234.5 real}
 do_test nan-4.13 {
   db eval {DELETE FROM t1}
   set small [string repeat 0 10000].[string repeat 0 324][string repeat 9 10000]
   db eval "INSERT INTO t1 VALUES($small)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {0.0 real}
 do_test nan-4.14 {
   db eval {DELETE FROM t1}
   set small \
       -[string repeat 0 10000].[string repeat 0 324][string repeat 9 10000]
   db eval "INSERT INTO t1 VALUES($small)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {0.0 real}

 # These tests test some really, really small floating point numbers.
 #
 if {$tcl_platform(platform) != "symbian"} {
   # These two are not run on symbian because tcl has trouble converting
   # the very small numbers back to text form (probably due to a difference
   # in the sprintf() implementation).
   #
   do_test nan-4.15 {
     db eval {DELETE FROM t1}
     set small \
         [string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
     db eval "INSERT INTO t1 VALUES($small)"
     db eval {SELECT x, typeof(x) FROM t1}
   } {9.88131291682493e-324 real}
   do_test nan-4.16 {
     db eval {DELETE FROM t1}
     set small \
         -[string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
     db eval "INSERT INTO t1 VALUES($small)"
     db eval {SELECT x, typeof(x) FROM t1}
   } {-9.88131291682493e-324 real}
 }
 do_test nan-4.17 {
   db eval {DELETE FROM t1}
   set small [string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
   db eval "INSERT INTO t1 VALUES($small)"
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {9.88131291682493e-324 real}
 do_test nan-4.18 {
   db eval {DELETE FROM t1}
   set small \
       -[string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
   db eval "INSERT INTO t1 VALUES($small)"
   db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
 } {-9.88131291682493e-324 real}

 do_realnum_test nan-4.20 {
   db eval {DELETE FROM t1}
   set big [string repeat 9 10000].0e-9000
   db eval "INSERT INTO t1 VALUES($big)"
   db eval {SELECT x, typeof(x) FROM t1}
 } {inf real}

 do_realnum_test nan-4.30 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e+9999');
     SELECT x, typeof(x) FROM t1;
   }
 } {inf real}
 do_realnum_test nan-4.31 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e+10000');
     SELECT x, typeof(x) FROM t1;
   }
 } {inf real}

 do_realnum_test nan-4.32 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e-9999');
     SELECT x, typeof(x) FROM t1;
   }
 } {0.0 real}
 do_realnum_test nan-4.33 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e-10000');
     SELECT x, typeof(x) FROM t1;
   }
 } {0.0 real}
 do_realnum_test nan-4.34 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e2147483650');
     SELECT x, typeof(x) FROM t1;
   }
 } {inf real}
 do_realnum_test nan-4.35 {
   db eval {
     DELETE FROM t1;
     INSERT INTO t1 VALUES('2.5e-2147483650');
     SELECT x, typeof(x) FROM t1;
   }
 } {0.0 real}


 finish_test
	# 2008 April 28
	#
	# 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.
	#
	#***********************************************************************
	#
	# Ticket #3060
	#
	# Make sure IEEE floating point NaN values are handled properly.
	# SQLite should always convert NaN into NULL.
	#
	# Also verify that the decimal to IEEE754 binary conversion routines
	# correctly generate 0.0, +Inf, and -Inf as appropriate for numbers
	# out of range.
	#
	# $Id: nan.test,v 1.5 2008/09/18 11:30:13 danielk1977 Exp $
	#

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

	# Do not use a codec for tests in this file, as the database file is
	# manipulated directly using tcl scripts (using the [hexio_write] command).
	#
	do_not_use_codec

	do_test nan-1.1.1 {
	db eval {
	PRAGMA auto_vacuum=OFF;
	PRAGMA page_size=1024;
	CREATE TABLE t1(x FLOAT);
	}
	set ::STMT [sqlite3_prepare db "INSERT INTO t1 VALUES(?)" -1 TAIL]
	sqlite3_bind_double $::STMT 1 NaN
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}
	if {$tcl_platform(platform) != "symbian"} {
	do_realnum_test nan-1.1.2 {
	sqlite3_bind_double $::STMT 1 +Inf
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null inf real}
	do_realnum_test nan-1.1.3 {
	sqlite3_bind_double $::STMT 1 -Inf
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null inf real -inf real}
	do_realnum_test nan-1.1.4 {
	sqlite3_bind_double $::STMT 1 -NaN
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null inf real -inf real {} null}
	do_realnum_test nan-1.1.5 {
	sqlite3_bind_double $::STMT 1 NaN0
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null inf real -inf real {} null {} null}
	do_realnum_test nan-1.1.6 {
	sqlite3_bind_double $::STMT 1 -NaN0
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null inf real -inf real {} null {} null {} null}
	do_test nan-1.1.7 {
	db eval {
	UPDATE t1 SET x=x-x;
	SELECT x, typeof(x) FROM t1;
	}
	} {{} null {} null {} null {} null {} null {} null}
	}

	# The following block of tests, nan-1.2., are the same as the nan-1.1.
	# tests above, except that the SELECT queries used to validate data
	# convert floating point values to text internally before returning them
	# to Tcl. This allows the tests to be run on platforms where Tcl has
	# problems converting "inf" and "-inf" from floating point to text format.
	# It also tests the internal float->text conversion routines a bit.
	#
	do_test nan-1.2.1 {
	db eval {
	DELETE FROM T1;
	}
	sqlite3_bind_double $::STMT 1 NaN
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null}
	do_test nan-1.2.2 {
	sqlite3_bind_double $::STMT 1 +Inf
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null Inf real}
	do_test nan-1.2.3 {
	sqlite3_bind_double $::STMT 1 -Inf
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null Inf real -Inf real}
	do_test nan-1.2.4 {
	sqlite3_bind_double $::STMT 1 -NaN
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null Inf real -Inf real {} null}
	do_test nan-1.2.5 {
	sqlite3_bind_double $::STMT 1 NaN0
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null Inf real -Inf real {} null {} null}
	do_test nan-1.2.6 {
	sqlite3_bind_double $::STMT 1 -NaN0
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {{} null Inf real -Inf real {} null {} null {} null}
	do_test nan-1.2.7 {
	db eval {
	UPDATE t1 SET x=x-x;
	SELECT CAST(x AS text), typeof(x) FROM t1;
	}
	} {{} null {} null {} null {} null {} null {} null}

	do_test nan-2.1 {
	db eval {
	DELETE FROM T1;
	}
	sqlite3_bind_double $::STMT 1 NaN
	sqlite3_step $::STMT
	sqlite3_reset $::STMT
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}
	sqlite3_finalize $::STMT

	# SQLite always converts NaN into NULL so it is not possible to write
	# a NaN value into the database file using SQLite. The following series
	# of tests writes a normal floating point value (0.5) into the database,
	# then writes directly into the database file to change the 0.5 into NaN.
	# Then it reads the value of the database to verify it is converted into
	# NULL.
	#
	do_test nan-3.1 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES(0.5);
	PRAGMA auto_vacuum=OFF;
	PRAGMA page_size=1024;
	VACUUM;
	}
	hexio_read test.db 2040 8
	} {3FE0000000000000}
	do_test nan-3.2 {
	db eval {
	SELECT x, typeof(x) FROM t1
	}
	} {0.5 real}
	do_test nan-3.3 {
	db close
	hexio_write test.db 2040 FFF8000000000000
	sqlite3 db test.db
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}
	do_test nan-3.4 {
	db close
	hexio_write test.db 2040 7FF8000000000000
	sqlite3 db test.db
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}
	do_test nan-3.5 {
	db close
	hexio_write test.db 2040 FFFFFFFFFFFFFFFF
	sqlite3 db test.db
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}
	do_test nan-3.6 {
	db close
	hexio_write test.db 2040 7FFFFFFFFFFFFFFF
	sqlite3 db test.db
	db eval {SELECT x, typeof(x) FROM t1}
	} {{} null}

	# Verify that the sqlite3AtoF routine is able to handle extreme
	# numbers.
	#
	do_test nan-4.1 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES([string repeat 9 307].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {1e+307 real}
	do_test nan-4.2 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES([string repeat 9 308].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {1e+308 real}
	do_test nan-4.3 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(-[string repeat 9 307].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-1e+307 real}
	do_test nan-4.4 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(-[string repeat 9 308].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-1e+308 real}
	do_test nan-4.5 {
	db eval {DELETE FROM t1}
	set big -[string repeat 0 10000][string repeat 9 308].[string repeat 0 10000]
	db eval "INSERT INTO t1 VALUES($big)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-1e+308 real}
	do_test nan-4.6 {
	db eval {DELETE FROM t1}
	set big [string repeat 0 10000][string repeat 9 308].[string repeat 0 10000]
	db eval "INSERT INTO t1 VALUES($big)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {1e+308 real}

	if {$tcl_platform(platform) != "symbian"} {
	# Do not run these tests on Symbian, as the Tcl port doesn't like to
	# convert from floating point value "-inf" to a string.
	#
	do_realnum_test nan-4.7 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES([string repeat 9 309].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {inf real}
	do_realnum_test nan-4.8 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(-[string repeat 9 309].0)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-inf real}
	}
	do_test nan-4.9 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES([string repeat 9 309].0)"
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {Inf real}
	do_test nan-4.10 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(-[string repeat 9 309].0)"
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {-Inf real}

	do_test nan-4.11 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(1234.5[string repeat 0 10000]12345)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {1234.5 real}
	do_test nan-4.12 {
	db eval {DELETE FROM t1}
	db eval "INSERT INTO t1 VALUES(-1234.5[string repeat 0 10000]12345)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-1234.5 real}
	do_test nan-4.13 {
	db eval {DELETE FROM t1}
	set small [string repeat 0 10000].[string repeat 0 324][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {0.0 real}
	do_test nan-4.14 {
	db eval {DELETE FROM t1}
	set small \
	-[string repeat 0 10000].[string repeat 0 324][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {0.0 real}

	# These tests test some really, really small floating point numbers.
	#
	if {$tcl_platform(platform) != "symbian"} {
	# These two are not run on symbian because tcl has trouble converting
	# the very small numbers back to text form (probably due to a difference
	# in the sprintf() implementation).
	#
	do_test nan-4.15 {
	db eval {DELETE FROM t1}
	set small \
	[string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {9.88131291682493e-324 real}
	do_test nan-4.16 {
	db eval {DELETE FROM t1}
	set small \
	-[string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {-9.88131291682493e-324 real}
	}
	do_test nan-4.17 {
	db eval {DELETE FROM t1}
	set small [string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {9.88131291682493e-324 real}
	do_test nan-4.18 {
	db eval {DELETE FROM t1}
	set small \
	-[string repeat 0 10000].[string repeat 0 323][string repeat 9 10000]
	db eval "INSERT INTO t1 VALUES($small)"
	db eval {SELECT CAST(x AS text), typeof(x) FROM t1}
	} {-9.88131291682493e-324 real}

	do_realnum_test nan-4.20 {
	db eval {DELETE FROM t1}
	set big [string repeat 9 10000].0e-9000
	db eval "INSERT INTO t1 VALUES($big)"
	db eval {SELECT x, typeof(x) FROM t1}
	} {inf real}

	do_realnum_test nan-4.30 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e+9999');
	SELECT x, typeof(x) FROM t1;
	}
	} {inf real}
	do_realnum_test nan-4.31 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e+10000');
	SELECT x, typeof(x) FROM t1;
	}
	} {inf real}

	do_realnum_test nan-4.32 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e-9999');
	SELECT x, typeof(x) FROM t1;
	}
	} {0.0 real}
	do_realnum_test nan-4.33 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e-10000');
	SELECT x, typeof(x) FROM t1;
	}
	} {0.0 real}
	do_realnum_test nan-4.34 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e2147483650');
	SELECT x, typeof(x) FROM t1;
	}
	} {inf real}
	do_realnum_test nan-4.35 {
	db eval {
	DELETE FROM t1;
	INSERT INTO t1 VALUES('2.5e-2147483650');
	SELECT x, typeof(x) FROM t1;
	}
	} {0.0 real}





	finish_test