# 2005 June 25 # # 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 file is testing the interaction of SQLite manifest types # with Tcl dual-representations. # set testdir [file dirname $argv0] source $testdir/tester.tcl # A variable with only a string representation comes in as TEXT do_test types3-1.1 { set V [format %s xxxxx] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {text} # A variable with an integer representation comes in as INTEGER do_test types3-1.2 { set V [expr {int(1+2)}] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {int integer} set V [expr {1+12345678012345}] if {[tcl_variable_type V]=="wideInt"} { do_test types3-1.3 { set V [expr {1+123456789012345}] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {wideInt integer} } else { do_test types3-1.3 { set V [expr {1+123456789012345}] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {int integer} } # A double variable comes in as REAL do_test types3-1.4 { set V [expr {1.0+1}] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {double real} # A byte-array variable comes in a BLOB if it has no string representation # or as TEXT if there is a string representation. # do_test types3-1.5 { set V [binary format a3 abc] concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {bytearray blob} do_test types3-1.6 { set V "abc" binary scan $V a3 x concat [tcl_variable_type V] [execsql {SELECT typeof(:V)}] } {bytearray text} # Check to make sure return values are of the right types. # ifcapable bloblit { do_test types3-2.1 { set V [db one {SELECT x'616263'}] tcl_variable_type V } bytearray } do_test types3-2.2 { set V [db one {SELECT 123}] tcl_variable_type V } int set Vx [expr {1+wide(123456789123456)}] do_test types3-2.3 { set V [db one {SELECT 1234567890123456}] tcl_variable_type V } [tcl_variable_type Vx] do_test types3-2.4.1 { set V [db one {SELECT 1234567890123456.1}] tcl_variable_type V } double do_test types3-2.4.2 { set V [db one {SELECT 1234567890123.456}] tcl_variable_type V } double do_test types3-2.5 { set V [db one {SELECT '1234567890123456.0'}] tcl_variable_type V } {} do_test types3-2.6 { set V [db one {SELECT NULL}] tcl_variable_type V } {} # See https://sqlite.org/forum/forumpost/3776b48e71 # # On a text-affinity comparison of two values where one of # the values has both MEM_Str and a numeric type like MEM_Int, # make sure that only the MEM_Str representation is used. # sqlite3_create_function db do_execsql_test types3-3.1 { DROP TABLE IF EXISTS t1; CREATE TABLE t1(x TEXT PRIMARY KEY); INSERT INTO t1 VALUES('1'); SELECT * FROM t1 WHERE NOT x=upper(1); } {} do_execsql_test types3-3.2 { SELECT * FROM t1 WHERE NOT x=add_text_type(1); } {} do_execsql_test types3-3.3 { SELECT * FROM t1 WHERE NOT x=add_int_type('1'); } {} do_execsql_test types3-3.4 { DELETE FROM t1; INSERT INTO t1 VALUES(1.25); SELECT * FROM t1 WHERE NOT x=add_real_type('1.25'); } {} do_execsql_test types3-3.5 { SELECT * FROM t1 WHERE NOT x=add_text_type(1.25); } {} finish_test