/**************************************************************************** ** ** Copyright (C) 2015 Klarälvdalens Datakonsult AB, a KDAB Group company, info@kdab.com, author Marc Mutz ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #undef QT_NO_CAST_FROM_ASCII #undef QT_NO_CAST_TO_ASCII #undef QT_ASCII_CAST_WARNINGS #include #include #include #include #include #include #include Q_DECLARE_METATYPE(QLatin1String) Q_DECLARE_METATYPE(QStringRef) template QString toQString(const T &t) { return QString(t); } QString toQString(const QStringRef &ref) { return ref.toString(); } QString toQString(QStringView view) { return view.toString(); } // FIXME: these are missing at the time of writing, add them, then remove the dummies here: #define MAKE_RELOP(op, A1, A2) \ static bool operator op (A1 lhs, A2 rhs) \ { return toQString(lhs) op toQString(rhs); } \ /*end*/ #define MAKE_ALL(A1, A2) \ MAKE_RELOP(==, A1, A2) \ MAKE_RELOP(!=, A1, A2) \ MAKE_RELOP(<, A1, A2) \ MAKE_RELOP(>, A1, A2) \ MAKE_RELOP(<=, A1, A2) \ MAKE_RELOP(>=, A1, A2) \ /*end*/ MAKE_ALL(QByteArray, QChar) MAKE_ALL(QByteArray, QLatin1String) MAKE_ALL(const char*, QChar) #undef MAKE_ALL #undef MAKE_RELOP // END FIXME class tst_QStringApiSymmetry : public QObject { Q_OBJECT // // Mixed UTF-16, UTF-8, Latin-1 checks: // void compare_data(bool hasConceptOfNullAndEmpty=true); template void compare_impl() const; private Q_SLOTS: // test all combinations of {QChar, QStringRef, QString, QStringView, QLatin1String, QByteArray, const char*} void compare_QChar_QChar_data() { compare_data(false); } void compare_QChar_QChar() { compare_impl(); } void compare_QChar_QStringRef_data() { compare_data(false); } void compare_QChar_QStringRef() { compare_impl(); } void compare_QChar_QString_data() { compare_data(false); } void compare_QChar_QString() { compare_impl(); } void compare_QChar_QStringView_data() { compare_data(false); } void compare_QChar_QStringView() { compare_impl(); } void compare_QChar_QLatin1String_data() { compare_data(false); } void compare_QChar_QLatin1String() { compare_impl(); } void compare_QChar_QByteArray_data() { compare_data(false); } void compare_QChar_QByteArray() { compare_impl(); } void compare_QChar_const_char_star_data() { compare_data(false); } void compare_QChar_const_char_star() { compare_impl(); } void compare_QStringRef_QChar_data() { compare_data(false); } void compare_QStringRef_QChar() { compare_impl(); } void compare_QStringRef_QStringRef_data() { compare_data(); } void compare_QStringRef_QStringRef() { compare_impl(); } void compare_QStringRef_QString_data() { compare_data(); } void compare_QStringRef_QString() { compare_impl(); } void compare_QStringRef_QStringView_data() { compare_data(); } void compare_QStringRef_QStringView() { compare_impl(); } void compare_QStringRef_QLatin1String_data() { compare_data(); } void compare_QStringRef_QLatin1String() { compare_impl(); } void compare_QStringRef_QByteArray_data() { compare_data(); } void compare_QStringRef_QByteArray() { compare_impl(); } void compare_QStringRef_const_char_star_data() { compare_data(); } void compare_QStringRef_const_char_star() { compare_impl(); } void compare_QString_QChar_data() { compare_data(false); } void compare_QString_QChar() { compare_impl(); } void compare_QString_QStringRef_data() { compare_data(); } void compare_QString_QStringRef() { compare_impl(); } void compare_QString_QString_data() { compare_data(); } void compare_QString_QString() { compare_impl(); } void compare_QString_QStringView_data() { compare_data(); } void compare_QString_QStringView() { compare_impl(); } void compare_QString_QLatin1String_data() { compare_data(); } void compare_QString_QLatin1String() { compare_impl(); } void compare_QString_QByteArray_data() { compare_data(); } void compare_QString_QByteArray() { compare_impl(); } void compare_QString_const_char_star_data() { compare_data(); } void compare_QString_const_char_star() { compare_impl(); } void compare_QStringView_QChar_data() { compare_data(false); } void compare_QStringView_QChar() { compare_impl(); } void compare_QStringView_QStringRef_data() { compare_data(); } void compare_QStringView_QStringRef() { compare_impl(); } void compare_QStringView_QString_data() { compare_data(); } void compare_QStringView_QString() { compare_impl(); } void compare_QStringView_QStringView_data() { compare_data(); } void compare_QStringView_QStringView() { compare_impl(); } void compare_QStringView_QLatin1String_data() { compare_data(); } void compare_QStringView_QLatin1String() { compare_impl(); } void compare_QLatin1String_QChar_data() { compare_data(false); } void compare_QLatin1String_QChar() { compare_impl(); } void compare_QLatin1String_QStringRef_data() { compare_data(); } void compare_QLatin1String_QStringRef() { compare_impl(); } void compare_QLatin1String_QString_data() { compare_data(); } void compare_QLatin1String_QString() { compare_impl(); } void compare_QLatin1String_QStringView_data() { compare_data(); } void compare_QLatin1String_QStringView() { compare_impl(); } void compare_QLatin1String_QLatin1String_data() { compare_data(); } void compare_QLatin1String_QLatin1String() { compare_impl(); } void compare_QLatin1String_QByteArray_data() { compare_data(); } void compare_QLatin1String_QByteArray() { compare_impl(); } void compare_QLatin1String_const_char_star_data() { compare_data(); } void compare_QLatin1String_const_char_star() { compare_impl(); } void compare_QByteArray_QChar_data() { compare_data(false); } void compare_QByteArray_QChar() { compare_impl(); } void compare_QByteArray_QStringRef_data() { compare_data(); } void compare_QByteArray_QStringRef() { compare_impl(); } void compare_QByteArray_QString_data() { compare_data(); } void compare_QByteArray_QString() { compare_impl(); } void compare_QByteArray_QLatin1String_data() { compare_data(); } void compare_QByteArray_QLatin1String() { compare_impl(); } void compare_QByteArray_QByteArray_data() { compare_data(); } void compare_QByteArray_QByteArray() { compare_impl(); } void compare_QByteArray_const_char_star_data() { compare_data(); } void compare_QByteArray_const_char_star() { compare_impl(); } void compare_const_char_star_QChar_data() { compare_data(false); } void compare_const_char_star_QChar() { compare_impl(); } void compare_const_char_star_QStringRef_data() { compare_data(); } void compare_const_char_star_QStringRef() { compare_impl(); } void compare_const_char_star_QString_data() { compare_data(); } void compare_const_char_star_QString() { compare_impl(); } void compare_const_char_star_QLatin1String_data() { compare_data(false); } void compare_const_char_star_QLatin1String() { compare_impl(); } void compare_const_char_star_QByteArray_data() { compare_data(); } void compare_const_char_star_QByteArray() { compare_impl(); } //void compare_const_char_star_const_char_star_data() { compare_data(); } //void compare_const_char_star_const_char_star() { compare_impl(); } private: void mid_data(); template void mid_impl(); void left_data(); template void left_impl(); void right_data(); template void right_impl(); private Q_SLOTS: void mid_QString_data() { mid_data(); } void mid_QString() { mid_impl(); } void mid_QStringRef_data() { mid_data(); } void mid_QStringRef() { mid_impl(); } void mid_QStringView_data() { mid_data(); } void mid_QStringView() { mid_impl(); } void mid_QLatin1String_data() { mid_data(); } void mid_QLatin1String() { mid_impl(); } void mid_QByteArray_data() { mid_data(); } void mid_QByteArray() { mid_impl(); } void left_QString_data() { left_data(); } void left_QString() { left_impl(); } void left_QStringRef_data() { left_data(); } void left_QStringRef() { left_impl(); } void left_QStringView_data() { left_data(); } void left_QStringView() { left_impl(); } void left_QLatin1String_data() { left_data(); } void left_QLatin1String() { left_impl(); } void left_QByteArray_data() { left_data(); } void left_QByteArray() { left_impl(); } void right_QString_data() { right_data(); } void right_QString() { right_impl(); } void right_QStringRef_data() { right_data(); } void right_QStringRef() { right_impl(); } void right_QStringView_data() { right_data(); } void right_QStringView() { right_impl(); } void right_QLatin1String_data() { right_data(); } void right_QLatin1String() { right_impl(); } void right_QByteArray_data() { right_data(); } void right_QByteArray() { right_impl(); } // // UTF-16-only checks: // private: void toLocal8Bit_data(); template void toLocal8Bit_impl(); void toLatin1_data(); template void toLatin1_impl(); void toUtf8_data(); template void toUtf8_impl(); void toUcs4_data(); template void toUcs4_impl(); private Q_SLOTS: void toLocal8Bit_QString_data() { toLocal8Bit_data(); } void toLocal8Bit_QString() { toLocal8Bit_impl(); } void toLocal8Bit_QStringRef_data() { toLocal8Bit_data(); } void toLocal8Bit_QStringRef() { toLocal8Bit_impl(); } void toLatin1_QString_data() { toLatin1_data(); } void toLatin1_QString() { toLatin1_impl(); } void toLatin1_QStringRef_data() { toLatin1_data(); } void toLatin1_QStringRef() { toLatin1_impl(); } void toUtf8_QString_data() { toUtf8_data(); } void toUtf8_QString() { toUtf8_impl(); } void toUtf8_QStringRef_data() { toUtf8_data(); } void toUtf8_QStringRef() { toUtf8_impl(); } void toUcs4_QString_data() { toUcs4_data(); } void toUcs4_QString() { toUcs4_impl(); } void toUcs4_QStringRef_data() { toUcs4_data(); } void toUcs4_QStringRef() { toUcs4_impl(); } }; void tst_QStringApiSymmetry::compare_data(bool hasConceptOfNullAndEmpty) { QTest::addColumn("lhsUnicode"); QTest::addColumn("lhsLatin1"); QTest::addColumn("rhsUnicode"); QTest::addColumn("rhsLatin1"); QTest::addColumn("caseSensitiveCompareResult"); QTest::addColumn("caseInsensitiveCompareResult"); if (hasConceptOfNullAndEmpty) { QTest::newRow("null <> null") << QStringRef() << QLatin1String() << QStringRef() << QLatin1String() << 0 << 0; static const QString empty(""); QTest::newRow("null <> empty") << QStringRef() << QLatin1String() << QStringRef(&empty) << QLatin1String("") << 0 << 0; } #define ROW(lhs, rhs) \ do { \ static const QString pinned[] = { \ QString(QLatin1String(lhs)), \ QString(QLatin1String(rhs)), \ }; \ QTest::newRow(qUtf8Printable(QLatin1String("'" lhs "' <> '" rhs "': "))) \ << QStringRef(&pinned[0]) << QLatin1String(lhs) \ << QStringRef(&pinned[1]) << QLatin1String(rhs) \ << qstrcmp(lhs, rhs) << qstricmp(lhs, rhs); \ } while (false) ROW("", "0"); ROW("0", ""); ROW("0", "1"); ROW("0", "0"); ROW("\xE4", "\xE4"); // ä <> ä ROW("\xE4", "\xC4"); // ä <> Ä #undef ROW } template Str make(const QStringRef &sf, QLatin1String l1, const QByteArray &u8); template <> QChar make(const QStringRef &sf, QLatin1String, const QByteArray &) { return sf.isEmpty() ? QChar() : sf.at(0); } template <> QStringRef make(const QStringRef &sf, QLatin1String, const QByteArray &) { return sf; } template <> QString make(const QStringRef &sf, QLatin1String, const QByteArray &) { return sf.toString(); } template <> QStringView make(const QStringRef &sf, QLatin1String, const QByteArray &) { return sf; } template <> QLatin1String make(const QStringRef &, QLatin1String l1, const QByteArray &) { return l1; } template <> QByteArray make(const QStringRef &, QLatin1String, const QByteArray &u8) { return u8; } template <> const char * make(const QStringRef &, QLatin1String, const QByteArray &u8) { return u8.data(); } template struct is_utf8_encoded : std::false_type {}; template <> struct is_utf8_encoded : std::true_type {}; template <> struct is_utf8_encoded : std::true_type {}; template struct is_latin1_encoded : std::false_type {}; template <> struct is_latin1_encoded : std::true_type {}; template struct has_nothrow_compare { enum { value = is_utf8_encoded::value == is_utf8_encoded::value }; }; template void tst_QStringApiSymmetry::compare_impl() const { QFETCH(QStringRef, lhsUnicode); QFETCH(QLatin1String, lhsLatin1); QFETCH(QStringRef, rhsUnicode); QFETCH(QLatin1String, rhsLatin1); QFETCH(int, caseSensitiveCompareResult); const auto lhsU8 = lhsUnicode.toUtf8(); const auto rhsU8 = rhsUnicode.toUtf8(); const auto lhs = make(lhsUnicode, lhsLatin1, lhsU8); const auto rhs = make(rhsUnicode, rhsLatin1, rhsU8); #ifdef Q_COMPILER_NOEXCEPT # define QVERIFY_NOEXCEPT(expr) do { \ if (has_nothrow_compare::value) {} else \ QEXPECT_FAIL("", "Qt is missing a nothrow utf8-utf16 comparator", Continue); \ QVERIFY(noexcept(expr)); } while (0) #else # define QVERIFY_NOEXCEPT(expr) #endif #define CHECK(op) \ QVERIFY_NOEXCEPT(lhs op rhs); \ do { if (caseSensitiveCompareResult op 0) { \ QVERIFY(lhs op rhs); \ } else { \ QVERIFY(!(lhs op rhs)); \ } } while (false) CHECK(==); CHECK(!=); CHECK(<); CHECK(>); CHECK(<=); CHECK(>=); #undef CHECK } static QString empty = QLatin1String(""); // the tests below rely on the fact that these objects' names match their contents: static QString a = QStringLiteral("a"); static QString b = QStringLiteral("b"); static QString c = QStringLiteral("c"); static QString ab = QStringLiteral("ab"); static QString bc = QStringLiteral("bc"); static QString abc = QStringLiteral("abc"); void tst_QStringApiSymmetry::mid_data() { QTest::addColumn("unicode"); QTest::addColumn("latin1"); QTest::addColumn("pos"); QTest::addColumn("n"); QTest::addColumn("result"); QTest::addColumn("result2"); QTest::addRow("null") << QStringRef() << QLatin1String() << 0 << 0 << QStringRef() << QStringRef(); QTest::addRow("empty") << QStringRef(&empty) << QLatin1String("") << 0 << 0 << QStringRef(&empty) << QStringRef(&empty); // Some classes' mid() implementations have a wide contract, others a narrow one // so only test valid arguents here: #define ROW(base, p, n, r1, r2) \ QTest::addRow("%s%d%d", #base, p, n) << QStringRef(&base) << QLatin1String(#base) << p << n << QStringRef(&r1) << QStringRef(&r2) ROW(a, 0, 0, a, empty); ROW(a, 0, 1, a, a); ROW(a, 1, 0, empty, empty); ROW(ab, 0, 0, ab, empty); ROW(ab, 0, 1, ab, a); ROW(ab, 0, 2, ab, ab); ROW(ab, 1, 0, b, empty); ROW(ab, 1, 1, b, b); ROW(ab, 2, 0, empty, empty); ROW(abc, 0, 0, abc, empty); ROW(abc, 0, 1, abc, a); ROW(abc, 0, 2, abc, ab); ROW(abc, 0, 3, abc, abc); ROW(abc, 1, 0, bc, empty); ROW(abc, 1, 1, bc, b); ROW(abc, 1, 2, bc, bc); ROW(abc, 2, 0, c, empty); ROW(abc, 2, 1, c, c); ROW(abc, 3, 0, empty, empty); #undef ROW } template void tst_QStringApiSymmetry::mid_impl() { QFETCH(const QStringRef, unicode); QFETCH(const QLatin1String, latin1); QFETCH(const int, pos); QFETCH(const int, n); QFETCH(const QStringRef, result); QFETCH(const QStringRef, result2); const auto utf8 = unicode.toUtf8(); const auto s = make(unicode, latin1, utf8); const auto mid = s.mid(pos); const auto mid2 = s.mid(pos, n); QVERIFY(mid == result); QCOMPARE(mid.isNull(), result.isNull()); QCOMPARE(mid.isEmpty(), result.isEmpty()); QVERIFY(mid2 == result2); QCOMPARE(mid2.isNull(), result2.isNull()); QCOMPARE(mid2.isEmpty(), result2.isEmpty()); } void tst_QStringApiSymmetry::left_data() { QTest::addColumn("unicode"); QTest::addColumn("latin1"); QTest::addColumn("n"); QTest::addColumn("result"); QTest::addRow("null") << QStringRef() << QLatin1String() << 0 << QStringRef(); QTest::addRow("empty") << QStringRef(&empty) << QLatin1String("") << 0 << QStringRef(&empty); // Some classes' left() implementations have a wide contract, others a narrow one // so only test valid arguents here: #define ROW(base, n, res) \ QTest::addRow("%s%d", #base, n) << QStringRef(&base) << QLatin1String(#base) << n << QStringRef(&res); ROW(a, 0, empty); ROW(a, 1, a); ROW(ab, 0, empty); ROW(ab, 1, a); ROW(ab, 2, ab); ROW(abc, 0, empty); ROW(abc, 1, a); ROW(abc, 2, ab); ROW(abc, 3, abc); #undef ROW } template void tst_QStringApiSymmetry::left_impl() { QFETCH(const QStringRef, unicode); QFETCH(const QLatin1String, latin1); QFETCH(const int, n); QFETCH(const QStringRef, result); const auto utf8 = unicode.toUtf8(); const auto s = make(unicode, latin1, utf8); const auto left = s.left(n); QVERIFY(left == result); QCOMPARE(left.isNull(), result.isNull()); QCOMPARE(left.isEmpty(), result.isEmpty()); } void tst_QStringApiSymmetry::right_data() { QTest::addColumn("unicode"); QTest::addColumn("latin1"); QTest::addColumn("n"); QTest::addColumn("result"); QTest::addRow("null") << QStringRef() << QLatin1String() << 0 << QStringRef(); QTest::addRow("empty") << QStringRef(&empty) << QLatin1String("") << 0 << QStringRef(&empty); // Some classes' right() implementations have a wide contract, others a narrow one // so only test valid arguents here: #define ROW(base, n, res) \ QTest::addRow("%s%d", #base, n) << QStringRef(&base) << QLatin1String(#base) << n << QStringRef(&res); ROW(a, 0, empty); ROW(a, 1, a); ROW(ab, 0, empty); ROW(ab, 1, b); ROW(ab, 2, ab); ROW(abc, 0, empty); ROW(abc, 1, c); ROW(abc, 2, bc); ROW(abc, 3, abc); #undef ROW } template void tst_QStringApiSymmetry::right_impl() { QFETCH(const QStringRef, unicode); QFETCH(const QLatin1String, latin1); QFETCH(const int, n); QFETCH(const QStringRef, result); const auto utf8 = unicode.toUtf8(); const auto s = make(unicode, latin1, utf8); const auto right = s.right(n); QVERIFY(right == result); QCOMPARE(right.isNull(), result.isNull()); QCOMPARE(right.isEmpty(), result.isEmpty()); } // // // UTF-16-only checks: // // template Str make(const QString &s); template <> QStringRef make(const QString &s) { return QStringRef(&s); } template <> QString make(const QString &s) { return s; } #define REPEAT_16X(X) X X X X X X X X X X X X X X X X #define LONG_STRING_256 REPEAT_16X("0123456789abcdef") void tst_QStringApiSymmetry::toLocal8Bit_data() { QTest::addColumn("unicode"); QTest::addColumn("local"); auto add = [](const char *local) { const QByteArray ba(local); QString s; for (char c : ba) s += QLatin1Char(c); QTest::addRow("\"%s\" (%d)", ba.left(16).constData(), ba.size()) << s << ba; }; QTest::addRow("null") << QString() << QByteArray(); QTest::addRow("empty") << QString("") << QByteArray(""); add("Moebius"); add(LONG_STRING_256); } template void tst_QStringApiSymmetry::toLocal8Bit_impl() { QFETCH(const QString, unicode); QFETCH(const QByteArray, local); const auto str = make(unicode); const auto result = str.toLocal8Bit(); QCOMPARE(result, local); QCOMPARE(unicode.isEmpty(), result.isEmpty()); QCOMPARE(unicode.isNull(), result.isNull()); } void tst_QStringApiSymmetry::toLatin1_data() { QTest::addColumn("unicode"); QTest::addColumn("latin1"); auto add = [](const char *l1) { const QByteArray ba(l1); QString s; for (char c : ba) s += QLatin1Char(c); QTest::addRow("\"%s\" (%d)", ba.left(16).constData(), ba.size()) << s << ba; }; QTest::addRow("null") << QString() << QByteArray(); QTest::addRow("empty") << QString("") << QByteArray(""); add("M\xF6" "bius"); add(LONG_STRING_256); } template void tst_QStringApiSymmetry::toLatin1_impl() { QFETCH(const QString, unicode); QFETCH(const QByteArray, latin1); const auto str = make(unicode); const auto result = str.toLatin1(); QCOMPARE(result, latin1); QCOMPARE(unicode.isEmpty(), result.isEmpty()); QCOMPARE(unicode.isNull(), result.isNull()); } void tst_QStringApiSymmetry::toUtf8_data() { QTest::addColumn("unicode"); QTest::addColumn("utf8"); auto add = [](const char *u8) { QByteArray ba(u8); QString s = ba; QTest::addRow("\"%s\" (%d)", ba.left(16).constData(), ba.size()) << s << ba; }; QTest::addRow("null") << QString() << QByteArray(); QTest::addRow("empty") << QString("") << QByteArray(""); add("M\xC3\xB6" "bius"); add(LONG_STRING_256); } template void tst_QStringApiSymmetry::toUtf8_impl() { QFETCH(const QString, unicode); QFETCH(const QByteArray, utf8); const auto str = make(unicode); const auto result = str.toUtf8(); QCOMPARE(result, utf8); QCOMPARE(unicode.isEmpty(), result.isEmpty()); QCOMPARE(unicode.isNull(), result.isNull()); } void tst_QStringApiSymmetry::toUcs4_data() { QTest::addColumn("unicode"); QTest::addColumn>("ucs4"); auto add = [](const char *l1) { const QByteArray ba(l1); QString s; QVector ucs4; for (char c : ba) { s += QLatin1Char(c); ucs4.append(uint(uchar(c))); } QTest::addRow("\"%s\" (%d)", ba.left(16).constData(), ba.size()) << s << ucs4; }; QTest::addRow("null") << QString() << QVector(); QTest::addRow("empty") << QString("") << QVector(); add("M\xF6" "bius"); add(LONG_STRING_256); } template void tst_QStringApiSymmetry::toUcs4_impl() { QFETCH(const QString, unicode); QFETCH(const QVector, ucs4); const auto str = make(unicode); const auto result = str.toUcs4(); QCOMPARE(result, ucs4); QCOMPARE(unicode.isEmpty(), ucs4.isEmpty()); } QTEST_APPLESS_MAIN(tst_QStringApiSymmetry) #include "tst_qstringapisymmetry.moc"