/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include // isnan Q_DECLARE_METATYPE(QVariant) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) Q_DECLARE_METATYPE(QList >) typedef QMap IntStringMap; typedef QMap StringStringMap; typedef QMap ObjectPathStringMap; typedef QHash LLDateTimeMap; typedef QHash SignatureStringMap; Q_DECLARE_METATYPE(IntStringMap) Q_DECLARE_METATYPE(StringStringMap) Q_DECLARE_METATYPE(ObjectPathStringMap) Q_DECLARE_METATYPE(LLDateTimeMap) Q_DECLARE_METATYPE(SignatureStringMap) struct MyStruct { int i; QString s; inline bool operator==(const MyStruct &other) const { return i == other.i && s == other.s; } }; Q_DECLARE_METATYPE(MyStruct) QDBusArgument &operator<<(QDBusArgument &arg, const MyStruct &ms) { arg.beginStructure(); arg << ms.i << ms.s; arg.endStructure(); return arg; } const QDBusArgument &operator>>(const QDBusArgument &arg, MyStruct &ms) { arg.beginStructure(); arg >> ms.i >> ms.s; arg.endStructure(); return arg; } void commonInit() { qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType > >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType >(); qDBusRegisterMetaType(); } #ifdef USE_PRIVATE_CODE #include "private/qdbusintrospection_p.h" // just to make it easier: typedef QDBusIntrospection::Interfaces InterfaceMap; typedef QDBusIntrospection::Objects ObjectMap; typedef QDBusIntrospection::Arguments ArgumentList; typedef QDBusIntrospection::Annotations AnnotationsMap; typedef QDBusIntrospection::Methods MethodMap; typedef QDBusIntrospection::Signals SignalMap; typedef QDBusIntrospection::Properties PropertyMap; Q_DECLARE_METATYPE(QDBusIntrospection::Method) Q_DECLARE_METATYPE(QDBusIntrospection::Signal) Q_DECLARE_METATYPE(QDBusIntrospection::Property) Q_DECLARE_METATYPE(MethodMap) Q_DECLARE_METATYPE(SignalMap) Q_DECLARE_METATYPE(PropertyMap) inline QDBusIntrospection::Argument arg(const char* type, const char *name = 0) { QDBusIntrospection::Argument retval; retval.type = QLatin1String(type); retval.name = QLatin1String(name); return retval; } template inline QMap& operator<<(QMap& map, const T& m) { map.insertMulti(m.name, m); return map; } inline const char* mapName(const MethodMap&) { return "MethodMap"; } inline const char* mapName(const SignalMap&) { return "SignalMap"; } inline const char* mapName(const PropertyMap&) { return "PropertyMap"; } QString printable(const QDBusIntrospection::Method& m) { QString result = "method " + m.name + "("; foreach (QDBusIntrospection::Argument arg, m.inputArgs) result += QString("in %1 %2, ") .arg(arg.type, arg.name); foreach (QDBusIntrospection::Argument arg, m.outputArgs) result += QString("out %1 %2, ") .arg(arg.type, arg.name); AnnotationsMap::const_iterator it = m.annotations.begin(); for ( ; it != m.annotations.end(); ++it) result += QString("%1 \"%2\", ").arg(it.key()).arg(it.value()); result += ")"; return result; } QString printable(const QDBusIntrospection::Signal& s) { QString result = "signal " + s.name + "("; foreach (QDBusIntrospection::Argument arg, s.outputArgs) result += QString("out %1 %2, ") .arg(arg.type, arg.name); AnnotationsMap::const_iterator it = s.annotations.begin(); for ( ; it != s.annotations.end(); ++it) result += QString("%1 \"%2\", ").arg(it.key()).arg(it.value()); result += ")"; return result; } QString printable(const QDBusIntrospection::Property& p) { QString result; if (p.access == QDBusIntrospection::Property::Read) result = "property read %1 %2, "; else if (p.access == QDBusIntrospection::Property::Write) result = "property write %1 %2, "; else result = "property readwrite %1 %2, "; result = result.arg(p.type, p.name); AnnotationsMap::const_iterator it = p.annotations.begin(); for ( ; it != p.annotations.end(); ++it) result += QString("%1 \"%2\", ").arg(it.key()).arg(it.value()); return result; } template char* printableMap(const QMap& map) { QString contents = "\n"; typename QMap::const_iterator it = map.begin(); for ( ; it != map.end(); ++it) { if (it.key() != it.value().name) contents += it.value().name + ":"; contents += printable(it.value()); contents += ";\n"; } QString result("%1(size = %2): {%3}"); return qstrdup(qPrintable(result .arg(mapName(map)) .arg(map.size()) .arg(contents))); } QT_BEGIN_NAMESPACE namespace QTest { template<> inline char* toString(const MethodMap& map) { return printableMap(map); } template<> inline char* toString(const SignalMap& map) { return printableMap(map); } template<> inline char* toString(const PropertyMap& map) { return printableMap(map); } } QT_END_NAMESPACE #endif //bool compare(const QVariantList &l1, const QVariantList &l2); //bool compare(const QVariantMap &m1, const QVariantMap &m2); template bool compare(const T &t1, const T &t2) { return t1 == t2; } template<> bool compare(const QVariant &v1, const QVariant &v2); bool compare(double d1, double d2) { if (isnan(d1) && isnan(d2)) return true; return d1 == d2; } template<> bool compare(const QString &s1, const QString &s2) { if (s1.isEmpty() && s2.isEmpty()) return true; // regardless of whether one of them is null return s1 == s2; } template<> bool compare(const QByteArray &ba1, const QByteArray &ba2) { if (ba1.isEmpty() && ba2.isEmpty()) return true; // regardless of whether one of them is null return ba1 == ba2; } template<> bool compare(const QDBusVariant &s1, const QDBusVariant &s2) { return compare(s1.variant(), s2.variant()); } template bool compare(const QList &l1, const QList &l2) { if (l1.count() != l2.count()) return false; typename QList::ConstIterator it1 = l1.constBegin(); typename QList::ConstIterator it2 = l2.constBegin(); typename QList::ConstIterator end = l1.constEnd(); for ( ; it1 != end; ++it1, ++it2) if (!compare(*it1, *it2)) return false; return true; } template bool compare(const QMap &m1, const QMap &m2) { if (m1.count() != m2.size()) return false; typename QMap::ConstIterator i1 = m1.constBegin(); typename QMap::ConstIterator end = m1.constEnd(); for ( ; i1 != end; ++i1) { typename QMap::ConstIterator i2 = m2.find(i1.key()); if (i2 == m2.constEnd()) return false; if (!compare(*i1, *i2)) return false; } return true; } template bool compare(const QHash &m1, const QHash &m2) { if (m1.count() != m2.size()) return false; typename QHash::ConstIterator i1 = m1.constBegin(); typename QHash::ConstIterator end = m1.constEnd(); for ( ; i1 != end; ++i1) { typename QHash::ConstIterator i2 = m2.find(i1.key()); if (i2 == m2.constEnd()) return false; if (!compare(*i1, *i2)) return false; } return true; } template inline bool compare(const QDBusArgument &arg, const QVariant &v2, T * = 0) { return compare(qdbus_cast(arg), qvariant_cast(v2)); } bool compareToArgument(const QDBusArgument &arg, const QVariant &v2) { if (arg.currentSignature() != QDBusMetaType::typeToSignature(v2.userType())) return false; // try to demarshall the arg according to v2 switch (v2.userType()) { case QVariant::Bool: return compare(arg, v2); case QMetaType::UChar: return compare(arg, v2); case QMetaType::Short: return compare(arg, v2); case QMetaType::UShort: return compare(arg, v2); case QVariant::Int: return compare(arg, v2); case QVariant::UInt: return compare(arg, v2); case QVariant::LongLong: return compare(arg, v2); case QVariant::ULongLong: return compare(arg, v2); case QVariant::Double: return compare(arg, v2); case QVariant::String: return compare(arg, v2); case QVariant::ByteArray: return compare(arg, v2); case QVariant::List: return compare(arg, v2); case QVariant::Map: return compare(arg, v2); case QVariant::Point: return compare(arg, v2); case QVariant::PointF: return compare(arg, v2); case QVariant::Size: return compare(arg, v2); case QVariant::SizeF: return compare(arg, v2); case QVariant::Line: return compare(arg, v2); case QVariant::LineF: return compare(arg, v2); case QVariant::Rect: return compare(arg, v2); case QVariant::RectF: return compare(arg, v2); case QVariant::Date: return compare(arg, v2); case QVariant::Time: return compare(arg, v2); case QVariant::DateTime: return compare(arg, v2); default: register int id = v2.userType(); if (id == qMetaTypeId()) return compare(arg, v2); else if (id == qMetaTypeId()) return compare(arg, v2); else if (id == qMetaTypeId()) return compare(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId > >()) return compare > >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId >()) return compare >(arg, v2); else if (id == qMetaTypeId()) return compare(arg, v2); } qWarning() << "Unexpected QVariant type" << v2.userType() << QByteArray(QDBusMetaType::typeToSignature(v2.userType())) << QVariant::typeToName(QVariant::Type(v2.userType())); return false; } template<> bool compare(const QVariant &v1, const QVariant &v2) { // v1 is the one that came from the network // v2 is the one that we sent if (v1.userType() == qMetaTypeId()) // this argument has been left un-demarshalled return compareToArgument(qvariant_cast(v1), v2); if (v1.userType() != v2.userType()) return false; int id = v1.userType(); if (id == QVariant::List) return compare(v1.toList(), v2.toList()); else if (id == QVariant::Map) return compare(v1.toMap(), v2.toMap()); else if (id == QVariant::String) return compare(v1.toString(), v2.toString()); else if (id == QVariant::ByteArray) return compare(v1.toByteArray(), v2.toByteArray()); else if (id < int(QVariant::UserType)) // yes, v1.type() // QVariant can compare return v1 == v2; else if (id == QMetaType::UChar) return qvariant_cast(v1) == qvariant_cast(v2); else if (id == QMetaType::Short) return qvariant_cast(v1) == qvariant_cast(v2); else if (id == QMetaType::UShort) return qvariant_cast(v1) == qvariant_cast(v2); else if (id == qMetaTypeId()) return qvariant_cast(v1).path() == qvariant_cast(v2).path(); else if (id == qMetaTypeId()) return qvariant_cast(v1).signature() == qvariant_cast(v2).signature(); else if (id == qMetaTypeId()) return compare(qvariant_cast(v1).variant(), qvariant_cast(v2).variant()); else if (id == qMetaTypeId()) return compare(qvariant_cast(v1), qvariant_cast(v2)); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v2) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId()) return compare(qvariant_cast(v1), qvariant_cast(v2)); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return qvariant_cast > >(v1) == qvariant_cast > >(v2); else if (id == qMetaTypeId > >()) return compare(qvariant_cast > >(v1), qvariant_cast > >(v2)); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return qvariant_cast >(v1) == qvariant_cast >(v2); else if (id == qMetaTypeId >()) return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId >()) return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId >()) // ssmap return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId >()) return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId >()) // lldtmap return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId >()) return compare(qvariant_cast >(v1), qvariant_cast >(v2)); else if (id == qMetaTypeId()) // (is) return qvariant_cast(v1) == qvariant_cast(v2); else { qWarning() << "Please write a comparison case for type" << v1.typeName(); return false; // unknown type } } #if 0 bool compare(const QVariantList &l1, const QVariantList &l2) { if (l1.count() != l2.size()) return false; QVariantList::ConstIterator i1 = l1.constBegin(); QVariantList::ConstIterator i2 = l2.constBegin(); QVariantList::ConstIterator end = l1.constEnd(); for ( ; i1 != end; ++i1, ++i2) { if (!compare(*i1, *i2)) return false; } return true; } bool compare(const QVariantMap &m1, const QVariantMap &m2) { if (m1.count() != m2.size()) return false; QVariantMap::ConstIterator i1 = m1.constBegin(); QVariantMap::ConstIterator end = m1.constEnd(); for ( ; i1 != end; ++i1) { QVariantMap::ConstIterator i2 = m2.find(i1.key()); if (i2 == m2.constEnd()) return false; if (!compare(*i1, *i2)) return false; } return true; } #endif