/////////////////////////////////////////////////////////////////////////////// // Name: tests/strings/unicode.cpp // Purpose: Unicode unit test // Author: Vadim Zeitlin, Wlodzimierz ABX Skiba // Created: 2004-04-28 // RCS-ID: $Id$ // Copyright: (c) 2004 Vadim Zeitlin, Wlodzimierz Skiba /////////////////////////////////////////////////////////////////////////////// // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- #include "testprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/wx.h" #endif // WX_PRECOMP // helper class holding the matching MB and WC strings // // either str or wcs (but not both) may be NULL, this means that the conversion // to it should fail struct StringConversionData { StringConversionData(const char *str_, const wchar_t *wcs_, int flags_ = 0) : str(str_), wcs(wcs_), flags(flags_) { } const char * const str; const wchar_t * const wcs; enum { TEST_BOTH = 0, // test both str -> wcs and wcs -> str ONLY_MB2WC = 1 // only test str -> wcs conversion }; const int flags; // test that the conversion between str and wcs (subject to flags) succeeds // // the first argument is the index in the test array and is used solely for // diagnostics void Test(size_t n, wxMBConv& conv) const { if ( str ) { wxWCharBuffer wbuf = conv.cMB2WC(str); if ( wcs ) { CPPUNIT_ASSERT_MESSAGE ( Message(n, "MB2WC failed"), wbuf.data() ); CPPUNIT_ASSERT_MESSAGE ( Message(n, "MB2WC", wbuf, wcs), wxStrcmp(wbuf, wcs) == 0 ); } else // conversion is supposed to fail { CPPUNIT_ASSERT_MESSAGE ( Message(n, "MB2WC succeeded"), !wbuf.data() ); } } if ( wcs && !(flags & ONLY_MB2WC) ) { wxCharBuffer buf = conv.cWC2MB(wcs); if ( str ) { CPPUNIT_ASSERT_MESSAGE ( Message(n, "WC2MB failed"), buf.data() ); CPPUNIT_ASSERT_MESSAGE ( Message(n, "WC2MB", buf, str), strcmp(buf, str) == 0 ); } else { CPPUNIT_ASSERT_MESSAGE ( Message(n, "WC2MB succeeded"), !buf.data() ); } } } private: static std::string Message(size_t n, const wxString& msg) { return std::string(wxString::Format("#%lu: %s", (unsigned long)n, msg)); } template static std::string Message(size_t n, const char *func, const wxCharTypeBuffer& actual, const T *expected) { return Message(n, wxString::Format("%s returned \"%s\", expected \"%s\"", func, actual.data(), expected)); } }; // ---------------------------------------------------------------------------- // test class // ---------------------------------------------------------------------------- class UnicodeTestCase : public CppUnit::TestCase { public: UnicodeTestCase(); private: CPPUNIT_TEST_SUITE( UnicodeTestCase ); CPPUNIT_TEST( ToFromAscii ); CPPUNIT_TEST( ConstructorsWithConversion ); CPPUNIT_TEST( ConversionFixed ); CPPUNIT_TEST( ConversionWithNULs ); CPPUNIT_TEST( ConversionUTF7 ); CPPUNIT_TEST( ConversionUTF8 ); CPPUNIT_TEST( ConversionUTF16 ); CPPUNIT_TEST( ConversionUTF32 ); CPPUNIT_TEST( IsConvOk ); #if wxUSE_UNICODE CPPUNIT_TEST( Iteration ); #endif CPPUNIT_TEST_SUITE_END(); void ToFromAscii(); void ConstructorsWithConversion(); void ConversionFixed(); void ConversionWithNULs(); void ConversionUTF7(); void ConversionUTF8(); void ConversionUTF16(); void ConversionUTF32(); void IsConvOk(); #if wxUSE_UNICODE void Iteration(); #endif DECLARE_NO_COPY_CLASS(UnicodeTestCase) }; // register in the unnamed registry so that these tests are run by default CPPUNIT_TEST_SUITE_REGISTRATION( UnicodeTestCase ); // also include in it's own registry so that these tests can be run alone CPPUNIT_TEST_SUITE_NAMED_REGISTRATION( UnicodeTestCase, "UnicodeTestCase" ); UnicodeTestCase::UnicodeTestCase() { } void UnicodeTestCase::ToFromAscii() { #define TEST_TO_FROM_ASCII(txt) \ { \ static const char *msg = txt; \ wxString s = wxString::FromAscii(msg); \ CPPUNIT_ASSERT( strcmp( s.ToAscii() , msg ) == 0 ); \ } TEST_TO_FROM_ASCII( "Hello, world!" ); TEST_TO_FROM_ASCII( "additional \" special \t test \\ component \n :-)" ); } void UnicodeTestCase::ConstructorsWithConversion() { // the string "Déjà" in UTF-8 and wchar_t: const unsigned char utf8Buf[] = {0x44,0xC3,0xA9,0x6A,0xC3,0xA0,0}; const unsigned char utf8subBuf[] = {0x44,0xC3,0xA9,0x6A,0}; // just "Déj" const char *utf8 = (char *)utf8Buf; const char *utf8sub = (char *)utf8subBuf; wxString s1(utf8, wxConvUTF8); #if wxUSE_UNICODE const wchar_t wchar[] = {0x44,0xE9,0x6A,0xE0,0}; CPPUNIT_ASSERT_EQUAL( wchar, s1 ); wxString s2(wchar); CPPUNIT_ASSERT_EQUAL( wchar, s2 ); CPPUNIT_ASSERT_EQUAL( wxString::FromUTF8(utf8), s2 ); #else CPPUNIT_ASSERT_EQUAL( utf8, s1 ); #endif wxString sub(utf8sub, wxConvUTF8); // "Dej" substring wxString s3(utf8, wxConvUTF8, 4); CPPUNIT_ASSERT_EQUAL( sub, s3 ); #if wxUSE_UNICODE wxString s4(wchar, wxConvUTF8, 3); CPPUNIT_ASSERT_EQUAL( sub, s4 ); // conversion should stop with failure at pos 35 wxString s("\t[pl]open.format.Sformatuj dyskietk\xea=gfloppy %f", wxConvUTF8); CPPUNIT_ASSERT( s.empty() ); #endif // wxUSE_UNICODE // test using Unicode strings together with char* strings (this must work // in ANSI mode as well, of course): wxString s5("ascii"); CPPUNIT_ASSERT_EQUAL( "ascii", s5 ); s5 += " value"; CPPUNIT_ASSERT( strcmp(s5.mb_str(), "ascii value") == 0 ); CPPUNIT_ASSERT_EQUAL( "ascii value", s5 ); CPPUNIT_ASSERT( s5 != "SomethingElse" ); } void UnicodeTestCase::ConversionFixed() { size_t len; #if wxUSE_UNICODE wxConvLibc.cWC2MB(L"", 0, &len); #else // !wxUSE_UNICODE wxConvLibc.cMB2WC("", 0, &len); #endif // wxUSE_UNICODE/!wxUSE_UNICODE CPPUNIT_ASSERT_EQUAL( 0, len ); #if wxUSE_UNICODE // check that when we convert a fixed number of characters we obtain the // expected return value CPPUNIT_ASSERT_EQUAL( 0, wxConvLibc.ToWChar(NULL, 0, "", 0) ); CPPUNIT_ASSERT_EQUAL( 1, wxConvLibc.ToWChar(NULL, 0, "x", 1) ); CPPUNIT_ASSERT_EQUAL( 2, wxConvLibc.ToWChar(NULL, 0, "x", 2) ); CPPUNIT_ASSERT_EQUAL( 2, wxConvLibc.ToWChar(NULL, 0, "xy", 2) ); #endif // wxUSE_UNICODE } void UnicodeTestCase::ConversionWithNULs() { #if wxUSE_UNICODE static const size_t lenNulString = 10; wxString szTheString(L"The\0String", wxConvLibc, lenNulString); wxCharBuffer theBuffer = szTheString.mb_str(); CPPUNIT_ASSERT( memcmp(theBuffer.data(), "The\0String", lenNulString + 1) == 0 ); wxString szTheString2("The\0String", wxConvLocal, lenNulString); CPPUNIT_ASSERT_EQUAL( lenNulString, szTheString2.length() ); CPPUNIT_ASSERT( wxTmemcmp(szTheString2.c_str(), L"The\0String", lenNulString + 1) == 0 ); #else // !wxUSE_UNICODE wxString szTheString("TheString"); szTheString.insert(3, 1, '\0'); wxWCharBuffer theBuffer = szTheString.wc_str(wxConvLibc); CPPUNIT_ASSERT( memcmp(theBuffer.data(), L"The\0String", 11 * sizeof(wchar_t)) == 0 ); wxString szLocalTheString("TheString"); szLocalTheString.insert(3, 1, '\0'); wxWCharBuffer theLocalBuffer = szLocalTheString.wc_str(wxConvLocal); CPPUNIT_ASSERT( memcmp(theLocalBuffer.data(), L"The\0String", 11 * sizeof(wchar_t)) == 0 ); #endif // wxUSE_UNICODE/!wxUSE_UNICODE } void UnicodeTestCase::ConversionUTF7() { static const StringConversionData utf7data[] = { // normal fragments StringConversionData("+AKM-", L"\xa3"), StringConversionData("+AOk-t+AOk-", L"\xe9t\xe9"), // this one is an alternative valid encoding of the same string StringConversionData("+AOk-t+AOk", L"\xe9t\xe9", StringConversionData::ONLY_MB2WC), // some special cases StringConversionData("+-", L"+"), StringConversionData("+--", L"+-"), // the following are invalid UTF-7 sequences StringConversionData("\xa3", NULL), StringConversionData("+", NULL), StringConversionData("+~", NULL), StringConversionData("a+", NULL), }; for ( size_t n = 0; n < WXSIZEOF(utf7data); n++ ) { const StringConversionData& d = utf7data[n]; // converting to/from UTF-7 using iconv() currently doesn't work // because of several problems: // - GetMBNulLen() doesn't return correct result (iconv converts L'\0' // to an incomplete and anyhow nonsensical "+AA" string) // - iconv refuses to convert "+-" (although it converts "+-\n" just // fine, go figure) // // I have no idea how to fix this so just disable the test for now #if 0 d.Test(n, wxCSConv("utf-7")); #endif d.Test(n, wxConvUTF7); } } void UnicodeTestCase::ConversionUTF8() { static const StringConversionData utf8data[] = { #ifdef wxHAVE_U_ESCAPE StringConversionData("\xc2\xa3", L"\u00a3"), #endif StringConversionData("\xc2", NULL), }; wxCSConv conv(wxT("utf-8")); for ( size_t n = 0; n < WXSIZEOF(utf8data); n++ ) { const StringConversionData& d = utf8data[n]; d.Test(n, conv); d.Test(n, wxConvUTF8); } } void UnicodeTestCase::ConversionUTF16() { static const StringConversionData utf16data[] = { #ifdef wxHAVE_U_ESCAPE StringConversionData( "\x04\x1f\x04\x40\x04\x38\x04\x32\x04\x35\x04\x42\0\0", L"\u041f\u0440\u0438\u0432\u0435\u0442"), StringConversionData( "\x01\0\0b\x01\0\0a\x01\0\0r\0\0", L"\u0100b\u0100a\u0100r"), #endif StringConversionData("\0f\0o\0o\0\0", L"foo"), }; wxCSConv conv(wxFONTENCODING_UTF16BE); for ( size_t n = 0; n < WXSIZEOF(utf16data); n++ ) { const StringConversionData& d = utf16data[n]; d.Test(n, conv); } // special case: this string has consecutive NULs inside it which don't // terminate the string, this exposed a bug in our conversion code which // got confused in this case size_t len; conv.cMB2WC("\x01\0\0B\0C" /* A macron BC */, 6, &len); CPPUNIT_ASSERT_EQUAL( 3, len ); } void UnicodeTestCase::ConversionUTF32() { static const StringConversionData utf32data[] = { #ifdef wxHAVE_U_ESCAPE StringConversionData( "\0\0\x04\x1f\0\0\x04\x40\0\0\x04\x38\0\0\x04\x32\0\0\x04\x35\0\0\x04\x42\0\0\0\0", L"\u041f\u0440\u0438\u0432\u0435\u0442"), #endif StringConversionData("\0\0\0f\0\0\0o\0\0\0o\0\0\0\0", L"foo"), }; wxCSConv conv(wxFONTENCODING_UTF32BE); for ( size_t n = 0; n < WXSIZEOF(utf32data); n++ ) { const StringConversionData& d = utf32data[n]; d.Test(n, conv); } size_t len; conv.cMB2WC("\0\0\x01\0\0\0\0B\0\0\0C" /* A macron BC */, 12, &len); CPPUNIT_ASSERT_EQUAL( 3, len ); } void UnicodeTestCase::IsConvOk() { CPPUNIT_ASSERT( wxCSConv(wxFONTENCODING_SYSTEM).IsOk() ); CPPUNIT_ASSERT( wxCSConv("US-ASCII").IsOk() ); CPPUNIT_ASSERT( wxCSConv("UTF-8").IsOk() ); CPPUNIT_ASSERT( !wxCSConv("NoSuchConversion").IsOk() ); #ifdef __WINDOWS__ CPPUNIT_ASSERT( wxCSConv("WINDOWS-437").IsOk() ); #endif } #if wxUSE_UNICODE void UnicodeTestCase::Iteration() { // "czech" in Czech ("cestina"): static const char *textUTF8 = "\304\215e\305\241tina"; static const wchar_t textUTF16[] = {0x10D, 0x65, 0x161, 0x74, 0x69, 0x6E, 0x61, 0}; wxString text(wxString::FromUTF8(textUTF8)); CPPUNIT_ASSERT( wxStrcmp(text.wc_str(), textUTF16) == 0 ); // verify the string was decoded correctly: { size_t idx = 0; for ( wxString::const_iterator i = text.begin(); i != text.end(); ++i, ++idx ) { CPPUNIT_ASSERT( *i == textUTF16[idx] ); } } // overwrite the string with something that is shorter in UTF-8: { for ( wxString::iterator i = text.begin(); i != text.end(); ++i ) *i = 'x'; } // restore the original text now: { wxString::iterator end1 = text.end(); wxString::const_iterator end2 = text.end(); size_t idx = 0; for ( wxString::iterator i = text.begin(); i != text.end(); ++i, ++idx ) { *i = textUTF16[idx]; CPPUNIT_ASSERT( end1 == text.end() ); CPPUNIT_ASSERT( end2 == text.end() ); } CPPUNIT_ASSERT( end1 == text.end() ); CPPUNIT_ASSERT( end2 == text.end() ); } // and verify it again: { size_t idx = 0; for ( wxString::const_iterator i = text.begin(); i != text.end(); ++i, ++idx ) { CPPUNIT_ASSERT( *i == textUTF16[idx] ); } } } #endif // wxUSE_UNICODE