sqlite/test/bind.test
drh 53c1402157 Add some UTF-8 test infrastructure. Treat NaN as NULL. The printf routines
print infinity as "Inf" not as "NaN".  Ticket #2345. (CVS 3972)

FossilOrigin-Name: ffe615a71107a38b6f60c7baf4284a5b0aecdc22
2007-05-10 17:23:11 +00:00

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# 2003 September 6
#
# 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. The
# focus of this script testing the sqlite_bind API.
#
# $Id: bind.test,v 1.40 2007/05/10 17:23:12 drh Exp $
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
proc sqlite_step {stmt N VALS COLS} {
upvar VALS vals
upvar COLS cols
set vals [list]
set cols [list]
set rc [sqlite3_step $stmt]
for {set i 0} {$i < [sqlite3_column_count $stmt]} {incr i} {
lappend cols [sqlite3_column_name $stmt $i]
}
for {set i 0} {$i < [sqlite3_data_count $stmt]} {incr i} {
lappend vals [sqlite3_column_text $stmt $i]
}
return $rc
}
do_test bind-1.1 {
set DB [sqlite3_connection_pointer db]
execsql {CREATE TABLE t1(a,b,c);}
set VM [sqlite3_prepare $DB {INSERT INTO t1 VALUES(:1,?,:abc)} -1 TAIL]
set TAIL
} {}
do_test bind-1.1.1 {
sqlite3_bind_parameter_count $VM
} 3
do_test bind-1.1.2 {
sqlite3_bind_parameter_name $VM 1
} {:1}
do_test bind-1.1.3 {
sqlite3_bind_parameter_name $VM 2
} {}
do_test bind-1.1.4 {
sqlite3_bind_parameter_name $VM 3
} {:abc}
do_test bind-1.2 {
sqlite_step $VM N VALUES COLNAMES
} {SQLITE_DONE}
do_test bind-1.3 {
execsql {SELECT rowid, * FROM t1}
} {1 {} {} {}}
do_test bind-1.4 {
sqlite3_reset $VM
sqlite_bind $VM 1 {test value 1} normal
sqlite_step $VM N VALUES COLNAMES
} SQLITE_DONE
do_test bind-1.5 {
execsql {SELECT rowid, * FROM t1}
} {1 {} {} {} 2 {test value 1} {} {}}
do_test bind-1.6 {
sqlite3_reset $VM
sqlite_bind $VM 3 {'test value 2'} normal
sqlite_step $VM N VALUES COLNAMES
} SQLITE_DONE
do_test bind-1.7 {
execsql {SELECT rowid, * FROM t1}
} {1 {} {} {} 2 {test value 1} {} {} 3 {test value 1} {} {'test value 2'}}
do_test bind-1.8 {
sqlite3_reset $VM
set sqlite_static_bind_value 123
sqlite_bind $VM 1 {} static
sqlite_bind $VM 2 {abcdefg} normal
sqlite_bind $VM 3 {} null
execsql {DELETE FROM t1}
sqlite_step $VM N VALUES COLNAMES
execsql {SELECT rowid, * FROM t1}
} {1 123 abcdefg {}}
do_test bind-1.9 {
sqlite3_reset $VM
sqlite_bind $VM 1 {456} normal
sqlite_step $VM N VALUES COLNAMES
execsql {SELECT rowid, * FROM t1}
} {1 123 abcdefg {} 2 456 abcdefg {}}
do_test bind-1.99 {
sqlite3_finalize $VM
} SQLITE_OK
# Prepare the statement in different ways depending on whether or not
# the $var processing is compiled into the library.
#
ifcapable {tclvar} {
do_test bind-2.1 {
execsql {
DELETE FROM t1;
}
set VM [sqlite3_prepare $DB {INSERT INTO t1 VALUES($one,$::two,$x(-z-))}\
-1 TX]
set TX
} {}
set v1 {$one}
set v2 {$::two}
set v3 {$x(-z-)}
}
ifcapable {!tclvar} {
do_test bind-2.1 {
execsql {
DELETE FROM t1;
}
set VM [sqlite3_prepare $DB {INSERT INTO t1 VALUES(:one,:two,:_)} -1 TX]
set TX
} {}
set v1 {:one}
set v2 {:two}
set v3 {:_}
}
do_test bind-2.1.1 {
sqlite3_bind_parameter_count $VM
} 3
do_test bind-2.1.2 {
sqlite3_bind_parameter_name $VM 1
} $v1
do_test bind-2.1.3 {
sqlite3_bind_parameter_name $VM 2
} $v2
do_test bind-2.1.4 {
sqlite3_bind_parameter_name $VM 3
} $v3
do_test bind-2.1.5 {
sqlite3_bind_parameter_index $VM $v1
} 1
do_test bind-2.1.6 {
sqlite3_bind_parameter_index $VM $v2
} 2
do_test bind-2.1.7 {
sqlite3_bind_parameter_index $VM $v3
} 3
do_test bind-2.1.8 {
sqlite3_bind_parameter_index $VM {:hi}
} 0
# 32 bit Integers
do_test bind-2.2 {
sqlite3_bind_int $VM 1 123
sqlite3_bind_int $VM 2 456
sqlite3_bind_int $VM 3 789
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 123 456 789}
do_test bind-2.3 {
sqlite3_bind_int $VM 2 -2000000000
sqlite3_bind_int $VM 3 2000000000
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 123 456 789 2 123 -2000000000 2000000000}
do_test bind-2.4 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {integer integer integer integer integer integer}
do_test bind-2.5 {
execsql {
DELETE FROM t1;
}
} {}
# 64 bit Integers
do_test bind-3.1 {
sqlite3_bind_int64 $VM 1 32
sqlite3_bind_int64 $VM 2 -2000000000000
sqlite3_bind_int64 $VM 3 2000000000000
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 32 -2000000000000 2000000000000}
do_test bind-3.2 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {integer integer integer}
do_test bind-3.3 {
execsql {
DELETE FROM t1;
}
} {}
# Doubles
do_test bind-4.1 {
sqlite3_bind_double $VM 1 1234.1234
sqlite3_bind_double $VM 2 0.00001
sqlite3_bind_double $VM 3 123456789
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
set x [execsql {SELECT rowid, * FROM t1}]
regsub {1e-005} $x {1e-05} y
set y
} {1 1234.1234 1e-05 123456789.0}
do_test bind-4.2 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {real real real}
do_test bind-4.3 {
execsql {
DELETE FROM t1;
}
} {}
do_test bind-4.4 {
sqlite3_bind_double $VM 1 NaN
sqlite3_bind_double $VM 2 1e300
sqlite3_bind_double $VM 3 -1e-300
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
set x [execsql {SELECT rowid, * FROM t1}]
regsub {1e-005} $x {1e-05} y
set y
} {1 {} 1e+300 -1e-300}
do_test bind-4.5 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {null real real}
do_test bind-4.6 {
execsql {
DELETE FROM t1;
}
} {}
# NULL
do_test bind-5.1 {
sqlite3_bind_null $VM 1
sqlite3_bind_null $VM 2
sqlite3_bind_null $VM 3
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 {} {} {}}
do_test bind-5.2 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {null null null}
do_test bind-5.3 {
execsql {
DELETE FROM t1;
}
} {}
# UTF-8 text
do_test bind-6.1 {
sqlite3_bind_text $VM 1 hellothere 5
sqlite3_bind_text $VM 2 ".." 1
sqlite3_bind_text $VM 3 world -1
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 hello . world}
do_test bind-6.2 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {text text text}
do_test bind-6.3 {
execsql {
DELETE FROM t1;
}
} {}
# UTF-16 text
ifcapable {utf16} {
do_test bind-7.1 {
sqlite3_bind_text16 $VM 1 [encoding convertto unicode hellothere] 10
sqlite3_bind_text16 $VM 2 [encoding convertto unicode ""] 0
sqlite3_bind_text16 $VM 3 [encoding convertto unicode world] 10
sqlite_step $VM N VALUES COLNAMES
sqlite3_reset $VM
execsql {SELECT rowid, * FROM t1}
} {1 hello {} world}
do_test bind-7.2 {
execsql {SELECT typeof(a), typeof(b), typeof(c) FROM t1}
} {text text text}
}
do_test bind-7.3 {
execsql {
DELETE FROM t1;
}
} {}
# Test that the 'out of range' error works.
do_test bind-8.1 {
catch { sqlite3_bind_null $VM 0 }
} {1}
do_test bind-8.2 {
sqlite3_errmsg $DB
} {bind or column index out of range}
ifcapable {utf16} {
do_test bind-8.3 {
encoding convertfrom unicode [sqlite3_errmsg16 $DB]
} {bind or column index out of range}
}
do_test bind-8.4 {
sqlite3_bind_null $VM 1
sqlite3_errmsg $DB
} {not an error}
do_test bind-8.5 {
catch { sqlite3_bind_null $VM 4 }
} {1}
do_test bind-8.6 {
sqlite3_errmsg $DB
} {bind or column index out of range}
ifcapable {utf16} {
do_test bind-8.7 {
encoding convertfrom unicode [sqlite3_errmsg16 $DB]
} {bind or column index out of range}
}
do_test bind-8.8 {
catch { sqlite3_bind_blob $VM 0 "abc" 3 }
} {1}
do_test bind-8.9 {
catch { sqlite3_bind_blob $VM 4 "abc" 3 }
} {1}
do_test bind-8.10 {
catch { sqlite3_bind_text $VM 0 "abc" 3 }
} {1}
ifcapable {utf16} {
do_test bind-8.11 {
catch { sqlite3_bind_text16 $VM 4 "abc" 2 }
} {1}
}
do_test bind-8.12 {
catch { sqlite3_bind_int $VM 0 5 }
} {1}
do_test bind-8.13 {
catch { sqlite3_bind_int $VM 4 5 }
} {1}
do_test bind-8.14 {
catch { sqlite3_bind_double $VM 0 5.0 }
} {1}
do_test bind-8.15 {
catch { sqlite3_bind_double $VM 4 6.0 }
} {1}
do_test bind-8.99 {
sqlite3_finalize $VM
} SQLITE_OK
do_test bind-9.1 {
execsql {
CREATE TABLE t2(a,b,c,d,e,f);
}
set rc [catch {
sqlite3_prepare $DB {
INSERT INTO t2(a) VALUES(?0)
} -1 TAIL
} msg]
lappend rc $msg
} {1 {(1) variable number must be between ?1 and ?999}}
do_test bind-9.2 {
set rc [catch {
sqlite3_prepare $DB {
INSERT INTO t2(a) VALUES(?1000)
} -1 TAIL
} msg]
lappend rc $msg
} {1 {(1) variable number must be between ?1 and ?999}}
do_test bind-9.3 {
set VM [
sqlite3_prepare $DB {
INSERT INTO t2(a,b) VALUES(?1,?999)
} -1 TAIL
]
sqlite3_bind_parameter_count $VM
} {999}
catch {sqlite3_finalize $VM}
do_test bind-9.4 {
set VM [
sqlite3_prepare $DB {
INSERT INTO t2(a,b,c,d) VALUES(?1,?997,?,?)
} -1 TAIL
]
sqlite3_bind_parameter_count $VM
} {999}
do_test bind-9.5 {
sqlite3_bind_int $VM 1 1
sqlite3_bind_int $VM 997 999
sqlite3_bind_int $VM 998 1000
sqlite3_bind_int $VM 999 1001
sqlite3_step $VM
} SQLITE_DONE
do_test bind-9.6 {
sqlite3_finalize $VM
} SQLITE_OK
do_test bind-9.7 {
execsql {SELECT * FROM t2}
} {1 999 1000 1001 {} {}}
ifcapable {tclvar} {
do_test bind-10.1 {
set VM [
sqlite3_prepare $DB {
INSERT INTO t2(a,b,c,d,e,f) VALUES(:abc,$abc,:abc,$ab,$abc,:abc)
} -1 TAIL
]
sqlite3_bind_parameter_count $VM
} 3
set v1 {$abc}
set v2 {$ab}
}
ifcapable {!tclvar} {
do_test bind-10.1 {
set VM [
sqlite3_prepare $DB {
INSERT INTO t2(a,b,c,d,e,f) VALUES(:abc,:xyz,:abc,:xy,:xyz,:abc)
} -1 TAIL
]
sqlite3_bind_parameter_count $VM
} 3
set v1 {:xyz}
set v2 {:xy}
}
do_test bind-10.2 {
sqlite3_bind_parameter_index $VM :abc
} 1
do_test bind-10.3 {
sqlite3_bind_parameter_index $VM $v1
} 2
do_test bind-10.4 {
sqlite3_bind_parameter_index $VM $v2
} 3
do_test bind-10.5 {
sqlite3_bind_parameter_name $VM 1
} :abc
do_test bind-10.6 {
sqlite3_bind_parameter_name $VM 2
} $v1
do_test bind-10.7 {
sqlite3_bind_parameter_name $VM 3
} $v2
do_test bind-10.7.1 {
sqlite3_bind_parameter_name 0 1 ;# Ignore if VM is NULL
} {}
do_test bind-10.7.2 {
sqlite3_bind_parameter_name $VM 0 ;# Ignore if index too small
} {}
do_test bind-10.7.3 {
sqlite3_bind_parameter_name $VM 4 ;# Ignore if index is too big
} {}
do_test bind-10.8 {
sqlite3_bind_int $VM 1 1
sqlite3_bind_int $VM 2 2
sqlite3_bind_int $VM 3 3
sqlite3_step $VM
} SQLITE_DONE
do_test bind-10.8.1 {
# Binding attempts after program start should fail
set rc [catch {
sqlite3_bind_int $VM 1 1
} msg]
lappend rc $msg
} {1 {}}
do_test bind-10.9 {
sqlite3_finalize $VM
} SQLITE_OK
do_test bind-10.10 {
execsql {SELECT * FROM t2}
} {1 999 1000 1001 {} {} 1 2 1 3 2 1}
# Ticket #918
#
do_test bind-10.11 {
# catch {sqlite3_finalize $VM}
set VM [
sqlite3_prepare $DB {
INSERT INTO t2(a,b,c,d,e,f) VALUES(:abc,?,?4,:pqr,:abc,?4)
} -1 TAIL
]
sqlite3_bind_parameter_count $VM
} 5
do_test bind-10.11.1 {
sqlite3_bind_parameter_index 0 :xyz ;# ignore NULL VM arguments
} 0
do_test bind-10.12 {
sqlite3_bind_parameter_index $VM :xyz
} 0
do_test bind-10.13 {
sqlite3_bind_parameter_index $VM {}
} 0
do_test bind-10.14 {
sqlite3_bind_parameter_index $VM :pqr
} 5
do_test bind-10.15 {
sqlite3_bind_parameter_index $VM ?4
} 4
do_test bind-10.16 {
sqlite3_bind_parameter_name $VM 1
} :abc
do_test bind-10.17 {
sqlite3_bind_parameter_name $VM 2
} {}
do_test bind-10.18 {
sqlite3_bind_parameter_name $VM 3
} {}
do_test bind-10.19 {
sqlite3_bind_parameter_name $VM 4
} {?4}
do_test bind-10.20 {
sqlite3_bind_parameter_name $VM 5
} :pqr
catch {sqlite3_finalize $VM}
# Make sure we catch an unterminated "(" in a Tcl-style variable name
#
ifcapable tclvar {
do_test bind-11.1 {
catchsql {SELECT * FROM sqlite_master WHERE name=$abc(123 and sql NOT NULL;}
} {1 {unrecognized token: "$abc(123"}}
}
if {[execsql {pragma encoding}]=="UTF-8"} {
# Test the ability to bind text that contains embedded '\000' characters.
# Make sure we can recover the entire input string.
#
do_test bind-12.1 {
execsql {
CREATE TABLE t3(x BLOB);
}
set VM [sqlite3_prepare $DB {INSERT INTO t3 VALUES(?)} -1 TAIL]
sqlite_bind $VM 1 not-used blob10
sqlite3_step $VM
sqlite3_finalize $VM
execsql {
SELECT typeof(x), length(x), quote(x),
length(cast(x AS BLOB)), quote(cast(x AS BLOB)) FROM t3
}
} {text 3 'abc' 10 X'6162630078797A007071'}
do_test bind-12.2 {
sqlite3_create_function $DB
execsql {
SELECT quote(cast(x_coalesce(x) AS blob)) FROM t3
}
} {X'6162630078797A007071'}
}
# Test the operation of sqlite3_clear_bindings
#
do_test bind-13.1 {
set VM [sqlite3_prepare $DB {SELECT ?,?,?} -1 TAIL]
sqlite3_step $VM
list [sqlite3_column_type $VM 0] [sqlite3_column_type $VM 1] \
[sqlite3_column_type $VM 2]
} {NULL NULL NULL}
do_test bind-13.2 {
sqlite3_reset $VM
sqlite3_bind_int $VM 1 1
sqlite3_bind_int $VM 2 2
sqlite3_bind_int $VM 3 3
sqlite3_step $VM
list [sqlite3_column_type $VM 0] [sqlite3_column_type $VM 1] \
[sqlite3_column_type $VM 2]
} {INTEGER INTEGER INTEGER}
do_test bind-13.3 {
sqlite3_reset $VM
sqlite3_step $VM
list [sqlite3_column_type $VM 0] [sqlite3_column_type $VM 1] \
[sqlite3_column_type $VM 2]
} {INTEGER INTEGER INTEGER}
do_test bind-13.4 {
sqlite3_reset $VM
sqlite3_clear_bindings $VM
sqlite3_step $VM
list [sqlite3_column_type $VM 0] [sqlite3_column_type $VM 1] \
[sqlite3_column_type $VM 2]
} {NULL NULL NULL}
sqlite3_finalize $VM
finish_test