# 2002 May 24 # # 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 SQLite routines used for converting between the # various suported unicode encodings (UTF-8, UTF-16, UTF-16le and # UTF-16be). # # $Id: enc.test,v 1.1.1.1 2012/02/21 17:04:16 misho Exp $ set testdir [file dirname $argv0] source $testdir/tester.tcl # Skip this test if the build does not support multiple encodings. # ifcapable {!utf16} { finish_test return } proc do_bincmp_test {testname got expect} { binary scan $expect \c* expectvals binary scan $got \c* gotvals do_test $testname [list set dummy $gotvals] $expectvals } # $utf16 is a UTF-16 encoded string. Swap each pair of bytes around # to change the byte-order of the string. proc swap_byte_order {utf16} { binary scan $utf16 \c* ints foreach {a b} $ints { lappend ints2 $b lappend ints2 $a } return [binary format \c* $ints2] } # # Test that the SQLite routines for converting between UTF encodings # produce the same results as their TCL counterparts. # # $testname is the prefix to be used for the test names. # $str is a string to use for testing (encoded in UTF-8, as normal for TCL). # # The test procedure is: # 1. Convert the string from UTF-8 to UTF-16le and check that the TCL and # SQLite routines produce the same results. # # 2. Convert the string from UTF-8 to UTF-16be and check that the TCL and # SQLite routines produce the same results. # # 3. Use the SQLite routines to convert the native machine order UTF-16 # representation back to the original UTF-8. Check that the result # matches the original representation. # # 4. Add a byte-order mark to each of the UTF-16 representations and # check that the SQLite routines can convert them back to UTF-8. For # byte-order mark info, refer to section 3.10 of the unicode standard. # # 5. Take the byte-order marked UTF-16 strings from step 4 and ensure # that SQLite can convert them both to native byte order UTF-16 # strings, sans BOM. # # Coverage: # # sqlite_utf8to16be (step 2) # sqlite_utf8to16le (step 1) # sqlite_utf16to8 (steps 3, 4) # sqlite_utf16to16le (step 5) # sqlite_utf16to16be (step 5) # proc test_conversion {testname str} { # Step 1. set utf16le_sqlite3 [test_translate $str UTF8 UTF16LE] set utf16le_tcl [encoding convertto unicode $str] append utf16le_tcl "\x00\x00" if { $::tcl_platform(byteOrder)!="littleEndian" } { set utf16le_tcl [swap_byte_order $utf16le_tcl] } do_bincmp_test $testname.1 $utf16le_sqlite3 $utf16le_tcl set utf16le $utf16le_tcl # Step 2. set utf16be_sqlite3 [test_translate $str UTF8 UTF16BE] set utf16be_tcl [encoding convertto unicode $str] append utf16be_tcl "\x00\x00" if { $::tcl_platform(byteOrder)=="littleEndian" } { set utf16be_tcl [swap_byte_order $utf16be_tcl] } do_bincmp_test $testname.2 $utf16be_sqlite3 $utf16be_tcl set utf16be $utf16be_tcl # Step 3. if { $::tcl_platform(byteOrder)=="littleEndian" } { set utf16 $utf16le } else { set utf16 $utf16be } set utf8_sqlite3 [test_translate $utf16 UTF16 UTF8] do_bincmp_test $testname.3 $utf8_sqlite3 [binarize $str] # Step 4 (little endian). append utf16le_bom "\xFF\xFE" $utf16le set utf8_sqlite3 [test_translate $utf16le_bom UTF16 UTF8 1] do_bincmp_test $testname.4.le $utf8_sqlite3 [binarize $str] # Step 4 (big endian). append utf16be_bom "\xFE\xFF" $utf16be set utf8_sqlite3 [test_translate $utf16be_bom UTF16 UTF8] do_bincmp_test $testname.4.be $utf8_sqlite3 [binarize $str] # Step 5 (little endian to little endian). set utf16_sqlite3 [test_translate $utf16le_bom UTF16LE UTF16LE] do_bincmp_test $testname.5.le.le $utf16_sqlite3 $utf16le # Step 5 (big endian to big endian). set utf16_sqlite3 [test_translate $utf16be_bom UTF16 UTF16BE] do_bincmp_test $testname.5.be.be $utf16_sqlite3 $utf16be # Step 5 (big endian to little endian). set utf16_sqlite3 [test_translate $utf16be_bom UTF16 UTF16LE] do_bincmp_test $testname.5.be.le $utf16_sqlite3 $utf16le # Step 5 (little endian to big endian). set utf16_sqlite3 [test_translate $utf16le_bom UTF16 UTF16BE] do_bincmp_test $testname.5.le.be $utf16_sqlite3 $utf16be } translate_selftest test_conversion enc-1 "hello world" test_conversion enc-2 "sqlite" test_conversion enc-3 "" test_conversion enc-X "\u0100" test_conversion enc-4 "\u1234" test_conversion enc-5 "\u4321abc" test_conversion enc-6 "\u4321\u1234" test_conversion enc-7 [string repeat "abcde\u00EF\u00EE\uFFFCabc" 100] test_conversion enc-8 [string repeat "\u007E\u007F\u0080\u0081" 100] test_conversion enc-9 [string repeat "\u07FE\u07FF\u0800\u0801\uFFF0" 100] test_conversion enc-10 [string repeat "\uE000" 100] proc test_collate {enc zLeft zRight} { return [string compare $zLeft $zRight] } add_test_collate $::DB 0 0 1 do_test enc-11.1 { execsql { CREATE TABLE ab(a COLLATE test_collate, b); INSERT INTO ab VALUES(CAST (X'C388' AS TEXT), X'888800'); INSERT INTO ab VALUES(CAST (X'C0808080808080808080808080808080808080808080808080808080808080808080808080808080808080808080808080808080808388' AS TEXT), X'888800'); CREATE INDEX ab_i ON ab(a, b); } } {} do_test enc-11.2 { set cp200 "\u00C8" execsql { SELECT count(*) FROM ab WHERE a = $::cp200; } } {2} finish_test