GIT_REPOSITORIES/LPP/PythonQt Files · src/PythonQtClassInfo.cpp

- removed argument to fullSignature...

- removed argument to fullSignature - returning instance methods on class objects as well - implemented unbound calls on instance methods returned on class objects git-svn-id: svn://svn.code.sf.net/p/pythonqt/code/trunk@59 ea8d5007-eb21-0410-b261-ccb3ea6e24a9

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      /*

      *

      *  Copyright (C) 2006 MeVis Research GmbH All Rights Reserved.

      *

      *  This library is free software; you can redistribute it and/or

      *  modify it under the terms of the GNU Lesser General Public

      *  License as published by the Free Software Foundation; either

      *  version 2.1 of the License, or (at your option) any later version.

      *

      *  This library is distributed in the hope that it will be useful,

      *  but WITHOUT ANY WARRANTY; without even the implied warranty of

      *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

      *  Lesser General Public License for more details.

      *

      *  Further, this software is distributed without any warranty that it is

      *  free of the rightful claim of any third person regarding infringement

      *  or the like.  Any license provided herein, whether implied or

      *  otherwise, applies only to this software file.  Patent licenses, if

      *  any, provided herein do not apply to combinations of this program with

      *  other software, or any other product whatsoever.

      *

      *  You should have received a copy of the GNU Lesser General Public

      *  License along with this library; if not, write to the Free Software

      *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

      *

      *  Contact information: MeVis Research GmbH, Universitaetsallee 29,

      *  28359 Bremen, Germany or:

      *

      *  http://www.mevis.de

      *

      */

      //----------------------------------------------------------------------------------

      /*!

      // \file    PythonQt.cpp

      // \author  Florian Link

      // \author  Last changed by $Author: florian $

      // \date    2006-05

      */

      //----------------------------------------------------------------------------------

      #include "PythonQtClassInfo.h"

      #include "PythonQtMethodInfo.h"

      #include "PythonQt.h"

      #include <QMetaMethod>

      QHash<QByteArray, int> PythonQtMethodInfo::_parameterTypeDict;

      PythonQtClassInfo::PythonQtClassInfo(const QMetaObject* meta, const QByteArray& wrappedClassName) {

        _meta = meta;

        _wrappedClassName = wrappedClassName;

        _constructors = NULL;

        _parentClassInfo = NULL; 

        _parentClassInfoResolved = false;

        _decoratorProvider = NULL;

        _decoratorProviderCB = NULL;

        _pythonQtClassWrapper = NULL;

        if (wrappedClassName.isEmpty()) {

          _metaTypeId = -1;

        } else {

          _metaTypeId = QMetaType::type(wrappedClassName);

        }

      }

      PythonQtClassInfo::~PythonQtClassInfo()

      {

        clearCachedMembers();

      }

      void PythonQtClassInfo::clearCachedMembers()

      {

        QHashIterator<QByteArray, PythonQtMemberInfo> i(_cachedMembers);

        while (i.hasNext()) {

          PythonQtMemberInfo member = i.next().value();

          if (member._type== PythonQtMemberInfo::Slot) {

            PythonQtSlotInfo* info = member._slot;

            while (info) {

              PythonQtSlotInfo* next = info->nextInfo();

              delete info;

              info = next;

            }

          }

        }

      }

      void PythonQtClassInfo::resolveParentClassInfo()

      {

        if (!_parentClassInfoResolved) {

          _parentClassInfoResolved = true;

          if (isCPPWrapper()) {

            if (!_wrappedClassName.isEmpty()) {

              _parentClassInfo = PythonQt::priv()->getClassInfo(_wrappedParentClassName);

            }

          } else {

            if (_meta->superClass()) {

              _parentClassInfo = PythonQt::priv()->getClassInfo(_meta->superClass());

            }

          }

        }

      }

      int PythonQtClassInfo::findCharOffset(const char* sigStart, char someChar)

      {

        const char* sigEnd = sigStart;

        char c;

        do {

          c = *sigEnd++;

        } while (c!=someChar && c!=0);

        return sigEnd-sigStart-1;

      }

      bool PythonQtClassInfo::lookForPropertyAndCache(const char* memberName)

      {

        bool found = false;

        bool nameMapped = false;

        const char* attributeName = memberName;

        // look for properties

        int i = _meta->indexOfProperty(attributeName);

        if (i==-1) {

          // try to map name to objectName

          if (qstrcmp(attributeName, "name")==0) {

            attributeName = "objectName";

            nameMapped = true;

            i = _meta->indexOfProperty(attributeName);

          }

        }

        if (i!=-1) {

          PythonQtMemberInfo newInfo(_meta->property(i));

          _cachedMembers.insert(attributeName, newInfo);

          if (nameMapped) {

            _cachedMembers.insert(memberName, newInfo);

          }

        #ifdef PYTHONQT_DEBUG

          std::cout << "caching property " << memberName << " on " << _meta->className() << std::endl;

        #endif

          found = true;

        }

        return found;

      }

      PythonQtSlotInfo* PythonQtClassInfo::findDecoratorSlotsFromDecoratorProvider(const char* memberName, PythonQtSlotInfo* tail, bool &found, QHash<QByteArray, PythonQtMemberInfo>& memberCache) {

        QObject* decoratorProvider = decorator();

        if (decoratorProvider) {

          const QMetaObject* meta = decoratorProvider->metaObject();

          int memberNameLen = strlen(memberName);

          int numMethods = meta->methodCount();

          int startFrom = QObject::staticMetaObject.methodCount();

          for (int i = startFrom; i < numMethods; i++) {

            QMetaMethod m = meta->method(i);

            if ((m.methodType() == QMetaMethod::Method ||

                 m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

              const char* sigStart = m.signature();

              bool isClassDeco = false;

              if (qstrncmp(sigStart, "static_", 7)==0) {

                // skip the static_classname_ part of the string

                sigStart += 7 + 1 + strlen(className());

                isClassDeco = true;

              } else if (qstrncmp(sigStart, "new_", 4)==0) {

                isClassDeco = true;

              } else if (qstrncmp(sigStart, "delete_", 7)==0) {

                isClassDeco = true;

              }

              // find the first '('

              int offset = findCharOffset(sigStart, '(');

              // XXX no checking is currently done if the slots have correct first argument or not...

              // check if same length and same name

              if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {

                found = true;

                PythonQtSlotInfo* info = new PythonQtSlotInfo(m, i, decoratorProvider, isClassDeco?PythonQtSlotInfo::ClassDecorator:PythonQtSlotInfo::InstanceDecorator);

                if (tail) {

                  tail->setNextInfo(info);

                } else {

                  PythonQtMemberInfo newInfo(info);

                  memberCache.insert(memberName, newInfo);

                }

                tail = info;

              }

            }

          }

        }

        return tail;

      }

      bool PythonQtClassInfo::lookForMethodAndCache(const char* memberName)

      {

        bool found = false;

        int memberNameLen = strlen(memberName);

        PythonQtSlotInfo* tail = NULL;

        if (_meta) {

          int numMethods = _meta->methodCount();

          for (int i = 0; i < numMethods; i++) {

            QMetaMethod m = _meta->method(i);

            if ((m.methodType() == QMetaMethod::Method ||

                 m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

              const char* sigStart = m.signature();

              // find the first '('

              int offset = findCharOffset(sigStart, '(');

              // check if same length and same name

              if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {

                found = true;

                PythonQtSlotInfo* info = new PythonQtSlotInfo(m, i);

                if (tail) {

                  tail->setNextInfo(info);

                } else {

                  PythonQtMemberInfo newInfo(info);

                  _cachedMembers.insert(memberName, newInfo);

                }

                tail = info;

              }

            }

          }

        }

        // look for dynamic decorators in this class and in derived classes

        PythonQtClassInfo* info = this;

        while (info) {

          tail = info->findDecoratorSlotsFromDecoratorProvider(memberName, tail, found, _cachedMembers);

          if (!info->_parentClassInfoResolved) {

            info->resolveParentClassInfo();

          }

          info = info->_parentClassInfo;

        }

        // look for decorators

        if (!_wrappedClassName.isEmpty()) {

          tail = findDecoratorSlots(_wrappedClassName.constData(), memberName, memberNameLen, tail, found);

        } 

        const QMetaObject* meta = _meta;

        while (meta) {

          tail = findDecoratorSlots(meta->className(), memberName, memberNameLen, tail, found);

          meta = meta->superClass();

        }

        return found;

      }

      bool PythonQtClassInfo::lookForEnumAndCache(const QMetaObject* meta, const char* memberName)

      {

        bool found = false;

        // look for enum values

        int enumCount = meta->enumeratorCount();

        for (int i=0;i<enumCount; i++) {

          QMetaEnum e = meta->enumerator(i);

          for (int j=0; j < e.keyCount(); j++) {

            if (qstrcmp(e.key(j), memberName)==0) {

              PythonQtMemberInfo newInfo(e.value(j));

              _cachedMembers.insert(memberName, newInfo);

        #ifdef PYTHONQT_DEBUG

              std::cout << "caching enum " << memberName << " on " << meta->className() << std::endl;

        #endif

              found = true;

            }

          }

        }

        return found;

      }

      PythonQtMemberInfo PythonQtClassInfo::member(const char* memberName)

      {

        PythonQtMemberInfo info = _cachedMembers.value(memberName);

        if (info._type != PythonQtMemberInfo::Invalid) {

          return info;

        } else {

          bool found = false;

          found = lookForPropertyAndCache(memberName);

          if (!found) {

            found = lookForMethodAndCache(memberName);

          }

          if (!found) {

            if (_meta) {

              // check enums in our meta object directly

              found = lookForEnumAndCache(_meta, memberName);

            }

            if (!found) {

              // check enums in the class hierachy of CPP classes

              // look for dynamic decorators in this class and in derived classes

              PythonQtClassInfo* info = this;

              while (info && !found) {

                QObject* deco = info->decorator();

                if (deco) {

                  // call on ourself for caching, but with different metaObject():

                  found = lookForEnumAndCache(deco->metaObject(), memberName);

                }

                if (!info->_parentClassInfoResolved) {

                  info->resolveParentClassInfo();

                }

                info = info->_parentClassInfo;

              }

            }

          }

          if (!found) {

            // we store a NotFound member, so that we get a quick result for non existing members (e.g. operator_equal lookup)

            info._type = PythonQtMemberInfo::NotFound;

            _cachedMembers.insert(memberName, info);

          }

        }

        return _cachedMembers.value(memberName);

      }

      PythonQtSlotInfo* PythonQtClassInfo::findDecoratorSlots(const char* classname, const char* memberName, int memberNameLen, PythonQtSlotInfo* tail, bool& found)

      {

        QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(classname));

        while (it.hasNext()) {

          PythonQtSlotInfo* infoOrig = it.next();

          const char* sigStart = infoOrig->metaMethod()->signature();

          if (qstrncmp("static_", sigStart, 7)==0) {

            sigStart += 7;

            sigStart += findCharOffset(sigStart, '_')+1;

          }

          int offset = findCharOffset(sigStart, '(');

          if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {

            //make a copy, otherwise we will have trouble on overloads!

            PythonQtSlotInfo* info = new PythonQtSlotInfo(*infoOrig);

            found = true;

            if (tail) {

              tail->setNextInfo(info);

            } else {

              PythonQtMemberInfo newInfo(info);

              _cachedMembers.insert(memberName, newInfo);

            }

            tail = info;

          }

        }

        return tail;

      }

      void PythonQtClassInfo::listDecoratorSlotsFromDecoratorProvider(QStringList& list, bool metaOnly) {

        QObject* decoratorProvider = decorator();

        if (decoratorProvider) {

          const QMetaObject* meta = decoratorProvider->metaObject();

          int numMethods = meta->methodCount();

          int startFrom = QObject::staticMetaObject.methodCount();

          for (int i = startFrom; i < numMethods; i++) {

            QMetaMethod m = meta->method(i);

            if ((m.methodType() == QMetaMethod::Method ||

                 m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

              const char* sigStart = m.signature();

              bool isClassDeco = false;

              if (qstrncmp(sigStart, "static_", 7)==0) {

                // skip the static_classname_ part of the string

                sigStart += 7 + 1 + strlen(className());

                isClassDeco = true;

              } else if (qstrncmp(sigStart, "new_", 4)==0) {

                continue;

              } else if (qstrncmp(sigStart, "delete_", 7)==0) {

                continue;

              }

              // find the first '('

              int offset = findCharOffset(sigStart, '(');

              // XXX no checking is currently done if the slots have correct first argument or not...

              if (!metaOnly || isClassDeco) {

                list << QString::fromLatin1(sigStart, offset); 

              }

            }

          }

        }

      }

      QStringList PythonQtClassInfo::memberList(bool metaOnly)

      {

        resolveParentClassInfo();

        decorator();

        QStringList l;

        QString h;

        if (_wrappedClassName.isEmpty() && _meta && !metaOnly) {

          int i;

          int numProperties = _meta->propertyCount();

          for (i = 0; i < numProperties; i++) {

            QMetaProperty p = _meta->property(i);

            l << QString(p.name());

          }

        }

        // normal slots of QObject (or wrapper QObject)

        if (!metaOnly && _meta) {

          int numMethods = _meta->methodCount();

          bool skipQObj = !_wrappedClassName.isEmpty();

          for (int i = skipQObj?QObject::staticMetaObject.methodCount():0; i < numMethods; i++) {

            QMetaMethod m = _meta->method(i);

            if ((m.methodType() == QMetaMethod::Method ||

              m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

              QByteArray signa(m.signature()); 

              if (signa.startsWith("new_")) continue;

              if (signa.startsWith("delete_")) continue;

              if (signa.startsWith("static_")) continue;

              PythonQtSlotInfo slot(m, i);

              l << slot.slotName();

            }

          }

        }

        {

          // look for dynamic decorators in this class and in derived classes

          PythonQtClassInfo* info = this;

          while (info) {

            info->listDecoratorSlotsFromDecoratorProvider(l, metaOnly);

            if (!info->_parentClassInfoResolved) {

              info->resolveParentClassInfo();

            }

            info = info->_parentClassInfo;

          }

        }

        // look for decorators

        QList<const char*> names;

        if (!_wrappedClassName.isEmpty()) {

          // CPP wrapper case:

          names << _wrappedClassName.constData();

          // for CPP classes which are wrapped, we do not want to look for decorators of the wrapping qobjects, since they

          // would require a different pointer on the decorator slot call

        } else {

          // QObject case:

          const QMetaObject* meta = _meta;

          while (meta) {

            if (meta==&QObject::staticMetaObject && !_wrappedClassName.isEmpty()) break;

            names << meta->className();

            meta = meta->superClass();

          }

        }

        QListIterator<const char*> nameIt(names);

        while (nameIt.hasNext()) {

          QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(nameIt.next()));

          while (it.hasNext()) {

            PythonQtSlotInfo* slot = it.next();

            if (metaOnly) {

              if (slot->isClassDecorator()) {

                QByteArray first = slot->slotName();

                if (first.startsWith("static_")) {

                  int idx = first.indexOf('_');

                  idx = first.indexOf('_', idx+1);

                  first = first.mid(idx+1);

                }

                l << first;

              }

            } else {

              l << slot->slotName();

            }

          }

        }

        // List enumerator keys...

        QList<const QMetaObject*> enumMetaObjects;

        if (_meta) {

          enumMetaObjects << _meta;

        }

        // check enums in the class hierachy of CPP classes

        PythonQtClassInfo* info = this;

        while (info) {

          QObject* deco = info->decorator();

          if (deco) {

            enumMetaObjects << deco->metaObject();

          }

          if (!info->_parentClassInfoResolved) {

            info->resolveParentClassInfo();

          }

          info = info->_parentClassInfo;

        }

        foreach(const QMetaObject* meta, enumMetaObjects) {

          for (int i = 0; i<meta->enumeratorCount(); i++) {

            QMetaEnum e = meta->enumerator(i);

            for (int j=0; j < e.keyCount(); j++) {

              l << QString(e.key(j));

            }

          }

        }

        return l;

      }

      const char* PythonQtClassInfo::className()

      {

        if (!_wrappedClassName.isEmpty()) {

          return _wrappedClassName.constData();

        } else {

          return _meta->className();

        }

      }

      bool PythonQtClassInfo::inherits(const char* name)

      {

        resolveParentClassInfo();

        if (isCPPWrapper()) {

          PythonQtClassInfo* info = this;

          while (info) {

            if (_wrappedClassName == name) {

              return true;

            }

            if (!info->_parentClassInfoResolved) {

              info->resolveParentClassInfo();

            }

            info = info->_parentClassInfo;

          }

        } else {

          const QMetaObject* m = _meta;

          while (m) {

            if (strcmp(name, m->className())==0) {

              return true;

            }

            m = m->superClass();

          }

        }

        return false;

      }

      QString PythonQtClassInfo::help()

      {

        resolveParentClassInfo();

        decorator();

        QString h;

        h += QString("--- ") + QString(className()) + QString(" ---\n");

        if (_wrappedClassName.isEmpty()) {

          h += "Properties:\n";

          int i;

          int numProperties = _meta->propertyCount();

          for (i = 0; i < numProperties; i++) {

            QMetaProperty p = _meta->property(i);

            h += QString(p.name()) + " (" + QString(p.typeName()) + " )\n";

          }

        }

        if (constructors()) {

          h += "Constructors:\n";

          PythonQtSlotInfo* constr = constructors();

          while (constr) {

            h += constr->fullSignature() + "\n";

            constr = constr->nextInfo();

          }

        }

        h += "Slots:\n";

        h += "QString help()\n";

        h += "QString className()\n";

        if (_meta) {

          int numMethods = _meta->methodCount();

          for (int i = 0; i < numMethods; i++) {

            QMetaMethod m = _meta->method(i);

            if ((m.methodType() == QMetaMethod::Method ||

              m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

              QByteArray signa(m.signature()); 

              if (signa.startsWith("new_")) continue;

              if (signa.startsWith("delete_")) continue;

              if (signa.startsWith("static_")) continue;

              PythonQtSlotInfo slot(m, i);

              h += slot.fullSignature()+ "\n";

            }

          }

        }

        // TODO xxx : decorators and enums from decorator() are missing...

        // maybe we can reuse memberlist()?

        // look for decorators

        QList<const char*> names;

        if (!_wrappedClassName.isEmpty()) {

          names << _wrappedClassName.constData();

        }

        const QMetaObject* meta = _meta;

        while (meta) {

          names << meta->className();

          meta = meta->superClass();

        }

        QListIterator<const char*> nameIt(names);

        while (nameIt.hasNext()) {

          QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(nameIt.next()));

          while (it.hasNext()) {

            PythonQtSlotInfo* slot = it.next();

            h += slot->fullSignature() + "\n";

          }

        }

        if (_meta && _meta->enumeratorCount()) {

          h += "Enums:\n";

          for (int i = 0; i<_meta->enumeratorCount(); i++) {

            QMetaEnum e = _meta->enumerator(i);

            h += QString(e.name()) + " {";

            for (int j=0; j < e.keyCount(); j++) {

              if (j) { h+= ", "; }

              h += e.key(j);

            }

            h += " }\n";

          }

        }

        if (_wrappedClassName.isEmpty() && _meta) {

          int numMethods = _meta->methodCount();

          if (numMethods>0) {

            h += "Signals:\n";

            for (int i = 0; i < numMethods; i++) {

              QMetaMethod m = _meta->method(i);

              if (m.methodType() == QMetaMethod::Signal) {

                h += QString(m.signature()) + "\n";

              }

            }

          }

        }

        return h;

      }

      PythonQtSlotInfo* PythonQtClassInfo::constructors()

      {

        if (!_constructors) {

          // force creation of lazy decorator, which will register the decorators

          decorator();

          _constructors = PythonQt::priv()->getConstructorSlot(!_wrappedClassName.isEmpty()?_wrappedClassName:QByteArray(_meta->className()));

        }

        return _constructors;

      }

      void PythonQtClassInfo::setMetaObject(const QMetaObject* meta)

      {

        _meta = meta;

        clearCachedMembers();

      }

      QObject* PythonQtClassInfo::decorator()

      {

        if (!_decoratorProvider && _decoratorProviderCB) {

          _decoratorProvider = (*_decoratorProviderCB)();

          if (_decoratorProvider) {

            _decoratorProvider->setParent(PythonQt::priv());

            PythonQt::priv()->addDecorators(_decoratorProvider, PythonQtPrivate::ConstructorDecorator | PythonQtPrivate::DestructorDecorator);

          }

        }

        return _decoratorProvider;

      }

      bool PythonQtClassInfo::hasOwnerMethodButNoOwner(void* object)

      {

        PythonQtMemberInfo info = member("hasOwner");

        if (info._type == PythonQtMemberInfo::Slot) {

          void* obj = object;

          bool result = false;

          void* args[2];

          args[0] = &result;

          args[1] = &obj;

          info._slot->decorator()->qt_metacall(QMetaObject::InvokeMetaMethod, info._slot->slotIndex(), args);

          return !result;

        } else {

          return false;

        }

      }

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				/*
				*
				* Copyright (C) 2006 MeVis Research GmbH All Rights Reserved.
				*
				* This library is free software; you can redistribute it and/or
				* modify it under the terms of the GNU Lesser General Public
				* License as published by the Free Software Foundation; either
				* version 2.1 of the License, or (at your option) any later version.
				*
				* This library is distributed in the hope that it will be useful,
				* but WITHOUT ANY WARRANTY; without even the implied warranty of
				* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
				* Lesser General Public License for more details.
				*
				* Further, this software is distributed without any warranty that it is
				* free of the rightful claim of any third person regarding infringement
				* or the like. Any license provided herein, whether implied or
				* otherwise, applies only to this software file. Patent licenses, if
				* any, provided herein do not apply to combinations of this program with
				* other software, or any other product whatsoever.
				*
				* You should have received a copy of the GNU Lesser General Public
				* License along with this library; if not, write to the Free Software
				* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
				*
				* Contact information: MeVis Research GmbH, Universitaetsallee 29,
				* 28359 Bremen, Germany or:
				*
				* http://www.mevis.de
				*
				*/

				//----------------------------------------------------------------------------------
				/*!
				// \file PythonQt.cpp
				// \author Florian Link
				// \author Last changed by $Author: florian $
				// \date 2006-05
				*/
				//----------------------------------------------------------------------------------

				#include "PythonQtClassInfo.h"
				#include "PythonQtMethodInfo.h"
				#include "PythonQt.h"
				#include <QMetaMethod>

				QHash<QByteArray, int> PythonQtMethodInfo::_parameterTypeDict;

				PythonQtClassInfo::PythonQtClassInfo(const QMetaObject* meta, const QByteArray& wrappedClassName) {
				_meta = meta;
				_wrappedClassName = wrappedClassName;
				_constructors = NULL;
				_parentClassInfo = NULL;
				_parentClassInfoResolved = false;
				_decoratorProvider = NULL;
				_decoratorProviderCB = NULL;
				_pythonQtClassWrapper = NULL;
				if (wrappedClassName.isEmpty()) {
				_metaTypeId = -1;
				} else {
				_metaTypeId = QMetaType::type(wrappedClassName);
				}
				}

				PythonQtClassInfo::~PythonQtClassInfo()
				{
				clearCachedMembers();
				}

				void PythonQtClassInfo::clearCachedMembers()
				{
				QHashIterator<QByteArray, PythonQtMemberInfo> i(_cachedMembers);
				while (i.hasNext()) {
				PythonQtMemberInfo member = i.next().value();
				if (member._type== PythonQtMemberInfo::Slot) {
				PythonQtSlotInfo* info = member._slot;
				while (info) {
				PythonQtSlotInfo* next = info->nextInfo();
				delete info;
				info = next;
				}
				}
				}
				}

				void PythonQtClassInfo::resolveParentClassInfo()
				{
				if (!_parentClassInfoResolved) {
				_parentClassInfoResolved = true;
				if (isCPPWrapper()) {
				if (!_wrappedClassName.isEmpty()) {
				_parentClassInfo = PythonQt::priv()->getClassInfo(_wrappedParentClassName);
				}
				} else {
				if (_meta->superClass()) {
				_parentClassInfo = PythonQt::priv()->getClassInfo(_meta->superClass());
				}
				}
				}
				}

				int PythonQtClassInfo::findCharOffset(const char* sigStart, char someChar)
				{
				const char* sigEnd = sigStart;
				char c;
				do {
				c = *sigEnd++;
				} while (c!=someChar && c!=0);
				return sigEnd-sigStart-1;
				}

				bool PythonQtClassInfo::lookForPropertyAndCache(const char* memberName)
				{
				bool found = false;
				bool nameMapped = false;
				const char* attributeName = memberName;
				// look for properties
				int i = _meta->indexOfProperty(attributeName);
				if (i==-1) {
				// try to map name to objectName
				if (qstrcmp(attributeName, "name")==0) {
				attributeName = "objectName";
				nameMapped = true;
				i = _meta->indexOfProperty(attributeName);
				}
				}
				if (i!=-1) {
				PythonQtMemberInfo newInfo(_meta->property(i));
				_cachedMembers.insert(attributeName, newInfo);
				if (nameMapped) {
				_cachedMembers.insert(memberName, newInfo);
				}
				#ifdef PYTHONQT_DEBUG
				std::cout << "caching property " << memberName << " on " << _meta->className() << std::endl;
				#endif
				found = true;
				}
				return found;
				}

				PythonQtSlotInfo* PythonQtClassInfo::findDecoratorSlotsFromDecoratorProvider(const char* memberName, PythonQtSlotInfo* tail, bool &found, QHash<QByteArray, PythonQtMemberInfo>& memberCache) {
				QObject* decoratorProvider = decorator();
				if (decoratorProvider) {
				const QMetaObject* meta = decoratorProvider->metaObject();
				int memberNameLen = strlen(memberName);
				int numMethods = meta->methodCount();
				int startFrom = QObject::staticMetaObject.methodCount();
				for (int i = startFrom; i < numMethods; i++) {
				QMetaMethod m = meta->method(i);
				if ((m.methodType() == QMetaMethod::Method \|\|
				m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

				const char* sigStart = m.signature();
				bool isClassDeco = false;
				if (qstrncmp(sigStart, "static_", 7)==0) {
				// skip the static_classname_ part of the string
				sigStart += 7 + 1 + strlen(className());
				isClassDeco = true;
				} else if (qstrncmp(sigStart, "new_", 4)==0) {
				isClassDeco = true;
				} else if (qstrncmp(sigStart, "delete_", 7)==0) {
				isClassDeco = true;
				}
				// find the first '('
				int offset = findCharOffset(sigStart, '(');

				// XXX no checking is currently done if the slots have correct first argument or not...

				// check if same length and same name
				if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {
				found = true;
				PythonQtSlotInfo* info = new PythonQtSlotInfo(m, i, decoratorProvider, isClassDeco?PythonQtSlotInfo::ClassDecorator:PythonQtSlotInfo::InstanceDecorator);
				if (tail) {
				tail->setNextInfo(info);
				} else {
				PythonQtMemberInfo newInfo(info);
				memberCache.insert(memberName, newInfo);
				}
				tail = info;
				}
				}
				}
				}
				return tail;
				}

				bool PythonQtClassInfo::lookForMethodAndCache(const char* memberName)
				{
				bool found = false;
				int memberNameLen = strlen(memberName);
				PythonQtSlotInfo* tail = NULL;
				if (_meta) {
				int numMethods = _meta->methodCount();
				for (int i = 0; i < numMethods; i++) {
				QMetaMethod m = _meta->method(i);
				if ((m.methodType() == QMetaMethod::Method \|\|
				m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

				const char* sigStart = m.signature();
				// find the first '('
				int offset = findCharOffset(sigStart, '(');

				// check if same length and same name
				if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {
				found = true;
				PythonQtSlotInfo* info = new PythonQtSlotInfo(m, i);
				if (tail) {
				tail->setNextInfo(info);
				} else {
				PythonQtMemberInfo newInfo(info);
				_cachedMembers.insert(memberName, newInfo);
				}
				tail = info;
				}
				}
				}
				}

				// look for dynamic decorators in this class and in derived classes
				PythonQtClassInfo* info = this;
				while (info) {
				tail = info->findDecoratorSlotsFromDecoratorProvider(memberName, tail, found, _cachedMembers);
				if (!info->_parentClassInfoResolved) {
				info->resolveParentClassInfo();
				}
				info = info->_parentClassInfo;
				}

				// look for decorators
				if (!_wrappedClassName.isEmpty()) {
				tail = findDecoratorSlots(_wrappedClassName.constData(), memberName, memberNameLen, tail, found);
				}

				const QMetaObject* meta = _meta;
				while (meta) {
				tail = findDecoratorSlots(meta->className(), memberName, memberNameLen, tail, found);
				meta = meta->superClass();
				}
				return found;
				}

				bool PythonQtClassInfo::lookForEnumAndCache(const QMetaObject* meta, const char* memberName)
				{
				bool found = false;
				// look for enum values
				int enumCount = meta->enumeratorCount();
				for (int i=0;i<enumCount; i++) {
				QMetaEnum e = meta->enumerator(i);
				for (int j=0; j < e.keyCount(); j++) {
				if (qstrcmp(e.key(j), memberName)==0) {
				PythonQtMemberInfo newInfo(e.value(j));
				_cachedMembers.insert(memberName, newInfo);
				#ifdef PYTHONQT_DEBUG
				std::cout << "caching enum " << memberName << " on " << meta->className() << std::endl;
				#endif
				found = true;
				}
				}
				}
				return found;
				}

				PythonQtMemberInfo PythonQtClassInfo::member(const char* memberName)
				{
				PythonQtMemberInfo info = _cachedMembers.value(memberName);
				if (info._type != PythonQtMemberInfo::Invalid) {
				return info;
				} else {
				bool found = false;

				found = lookForPropertyAndCache(memberName);
				if (!found) {
				found = lookForMethodAndCache(memberName);
				}
				if (!found) {
				if (_meta) {
				// check enums in our meta object directly
				found = lookForEnumAndCache(_meta, memberName);
				}
				if (!found) {
				// check enums in the class hierachy of CPP classes
				// look for dynamic decorators in this class and in derived classes
				PythonQtClassInfo* info = this;
				while (info && !found) {
				QObject* deco = info->decorator();
				if (deco) {
				// call on ourself for caching, but with different metaObject():
				found = lookForEnumAndCache(deco->metaObject(), memberName);
				}
				if (!info->_parentClassInfoResolved) {
				info->resolveParentClassInfo();
				}
				info = info->_parentClassInfo;
				}
				}
				}
				if (!found) {
				// we store a NotFound member, so that we get a quick result for non existing members (e.g. operator_equal lookup)
				info._type = PythonQtMemberInfo::NotFound;
				_cachedMembers.insert(memberName, info);
				}
				}

				return _cachedMembers.value(memberName);
				}

				PythonQtSlotInfo* PythonQtClassInfo::findDecoratorSlots(const char* classname, const char* memberName, int memberNameLen, PythonQtSlotInfo* tail, bool& found)
				{
				QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(classname));
				while (it.hasNext()) {

				PythonQtSlotInfo* infoOrig = it.next();

				const char* sigStart = infoOrig->metaMethod()->signature();
				if (qstrncmp("static_", sigStart, 7)==0) {
				sigStart += 7;
				sigStart += findCharOffset(sigStart, '_')+1;
				}
				int offset = findCharOffset(sigStart, '(');
				if (memberNameLen == offset && qstrncmp(memberName, sigStart, offset)==0) {
				//make a copy, otherwise we will have trouble on overloads!
				PythonQtSlotInfo* info = new PythonQtSlotInfo(*infoOrig);
				found = true;
				if (tail) {
				tail->setNextInfo(info);
				} else {
				PythonQtMemberInfo newInfo(info);
				_cachedMembers.insert(memberName, newInfo);
				}
				tail = info;
				}
				}
				return tail;
				}

				void PythonQtClassInfo::listDecoratorSlotsFromDecoratorProvider(QStringList& list, bool metaOnly) {
				QObject* decoratorProvider = decorator();
				if (decoratorProvider) {
				const QMetaObject* meta = decoratorProvider->metaObject();
				int numMethods = meta->methodCount();
				int startFrom = QObject::staticMetaObject.methodCount();
				for (int i = startFrom; i < numMethods; i++) {
				QMetaMethod m = meta->method(i);
				if ((m.methodType() == QMetaMethod::Method \|\|
				m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {

				const char* sigStart = m.signature();
				bool isClassDeco = false;
				if (qstrncmp(sigStart, "static_", 7)==0) {
				// skip the static_classname_ part of the string
				sigStart += 7 + 1 + strlen(className());
				isClassDeco = true;
				} else if (qstrncmp(sigStart, "new_", 4)==0) {
				continue;
				} else if (qstrncmp(sigStart, "delete_", 7)==0) {
				continue;
				}
				// find the first '('
				int offset = findCharOffset(sigStart, '(');

				// XXX no checking is currently done if the slots have correct first argument or not...
				if (!metaOnly \|\| isClassDeco) {
				list << QString::fromLatin1(sigStart, offset);
				}
				}
				}
				}
				}

				QStringList PythonQtClassInfo::memberList(bool metaOnly)
				{
				resolveParentClassInfo();
				decorator();

				QStringList l;
				QString h;
				if (_wrappedClassName.isEmpty() && _meta && !metaOnly) {
				int i;
				int numProperties = _meta->propertyCount();
				for (i = 0; i < numProperties; i++) {
				QMetaProperty p = _meta->property(i);
				l << QString(p.name());
				}
				}

				// normal slots of QObject (or wrapper QObject)
				if (!metaOnly && _meta) {
				int numMethods = _meta->methodCount();
				bool skipQObj = !_wrappedClassName.isEmpty();
				for (int i = skipQObj?QObject::staticMetaObject.methodCount():0; i < numMethods; i++) {
				QMetaMethod m = _meta->method(i);
				if ((m.methodType() == QMetaMethod::Method \|\|
				m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {
				QByteArray signa(m.signature());
				if (signa.startsWith("new_")) continue;
				if (signa.startsWith("delete_")) continue;
				if (signa.startsWith("static_")) continue;
				PythonQtSlotInfo slot(m, i);
				l << slot.slotName();
				}
				}
				}

				{
				// look for dynamic decorators in this class and in derived classes
				PythonQtClassInfo* info = this;
				while (info) {
				info->listDecoratorSlotsFromDecoratorProvider(l, metaOnly);
				if (!info->_parentClassInfoResolved) {
				info->resolveParentClassInfo();
				}
				info = info->_parentClassInfo;
				}
				}

				// look for decorators
				QList<const char*> names;
				if (!_wrappedClassName.isEmpty()) {
				// CPP wrapper case:
				names << _wrappedClassName.constData();
				// for CPP classes which are wrapped, we do not want to look for decorators of the wrapping qobjects, since they
				// would require a different pointer on the decorator slot call
				} else {
				// QObject case:
				const QMetaObject* meta = _meta;
				while (meta) {
				if (meta==&QObject::staticMetaObject && !_wrappedClassName.isEmpty()) break;
				names << meta->className();
				meta = meta->superClass();
				}
				}

				QListIterator<const char*> nameIt(names);
				while (nameIt.hasNext()) {
				QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(nameIt.next()));
				while (it.hasNext()) {
				PythonQtSlotInfo* slot = it.next();
				if (metaOnly) {
				if (slot->isClassDecorator()) {
				QByteArray first = slot->slotName();
				if (first.startsWith("static_")) {
				int idx = first.indexOf('_');
				idx = first.indexOf('_', idx+1);
				first = first.mid(idx+1);
				}
				l << first;
				}
				} else {
				l << slot->slotName();
				}
				}
				}

				// List enumerator keys...
				QList<const QMetaObject*> enumMetaObjects;
				if (_meta) {
				enumMetaObjects << _meta;
				}
				// check enums in the class hierachy of CPP classes
				PythonQtClassInfo* info = this;
				while (info) {
				QObject* deco = info->decorator();
				if (deco) {
				enumMetaObjects << deco->metaObject();
				}
				if (!info->_parentClassInfoResolved) {
				info->resolveParentClassInfo();
				}
				info = info->_parentClassInfo;
				}

				foreach(const QMetaObject* meta, enumMetaObjects) {
				for (int i = 0; i<meta->enumeratorCount(); i++) {
				QMetaEnum e = meta->enumerator(i);
				for (int j=0; j < e.keyCount(); j++) {
				l << QString(e.key(j));
				}
				}
				}
				return l;
				}

				const char* PythonQtClassInfo::className()
				{
				if (!_wrappedClassName.isEmpty()) {
				return _wrappedClassName.constData();
				} else {
				return _meta->className();
				}
				}

				bool PythonQtClassInfo::inherits(const char* name)
				{
				resolveParentClassInfo();
				if (isCPPWrapper()) {
				PythonQtClassInfo* info = this;
				while (info) {
				if (_wrappedClassName == name) {
				return true;
				}
				if (!info->_parentClassInfoResolved) {
				info->resolveParentClassInfo();
				}
				info = info->_parentClassInfo;
				}
				} else {
				const QMetaObject* m = _meta;
				while (m) {
				if (strcmp(name, m->className())==0) {
				return true;
				}
				m = m->superClass();
				}
				}
				return false;
				}

				QString PythonQtClassInfo::help()
				{
				resolveParentClassInfo();
				decorator();
				QString h;
				h += QString("--- ") + QString(className()) + QString(" ---\n");

				if (_wrappedClassName.isEmpty()) {
				h += "Properties:\n";

				int i;
				int numProperties = _meta->propertyCount();
				for (i = 0; i < numProperties; i++) {
				QMetaProperty p = _meta->property(i);
				h += QString(p.name()) + " (" + QString(p.typeName()) + " )\n";
				}
				}

				if (constructors()) {
				h += "Constructors:\n";
				PythonQtSlotInfo* constr = constructors();
				while (constr) {
				h += constr->fullSignature() + "\n";
				constr = constr->nextInfo();
				}
				}

				h += "Slots:\n";
				h += "QString help()\n";
				h += "QString className()\n";

				if (_meta) {
				int numMethods = _meta->methodCount();
				for (int i = 0; i < numMethods; i++) {
				QMetaMethod m = _meta->method(i);
				if ((m.methodType() == QMetaMethod::Method \|\|
				m.methodType() == QMetaMethod::Slot) && m.access() == QMetaMethod::Public) {
				QByteArray signa(m.signature());
				if (signa.startsWith("new_")) continue;
				if (signa.startsWith("delete_")) continue;
				if (signa.startsWith("static_")) continue;
				PythonQtSlotInfo slot(m, i);
				h += slot.fullSignature()+ "\n";
				}
				}
				}

				// TODO xxx : decorators and enums from decorator() are missing...
				// maybe we can reuse memberlist()?

				// look for decorators
				QList<const char*> names;
				if (!_wrappedClassName.isEmpty()) {
				names << _wrappedClassName.constData();
				}
				const QMetaObject* meta = _meta;
				while (meta) {
				names << meta->className();
				meta = meta->superClass();
				}

				QListIterator<const char*> nameIt(names);
				while (nameIt.hasNext()) {
				QListIterator<PythonQtSlotInfo*> it(PythonQt::priv()->getDecoratorSlots(nameIt.next()));
				while (it.hasNext()) {
				PythonQtSlotInfo* slot = it.next();
				h += slot->fullSignature() + "\n";
				}
				}

				if (_meta && _meta->enumeratorCount()) {
				h += "Enums:\n";
				for (int i = 0; i<_meta->enumeratorCount(); i++) {
				QMetaEnum e = _meta->enumerator(i);
				h += QString(e.name()) + " {";
				for (int j=0; j < e.keyCount(); j++) {
				if (j) { h+= ", "; }
				h += e.key(j);
				}
				h += " }\n";
				}
				}

				if (_wrappedClassName.isEmpty() && _meta) {
				int numMethods = _meta->methodCount();
				if (numMethods>0) {
				h += "Signals:\n";
				for (int i = 0; i < numMethods; i++) {
				QMetaMethod m = _meta->method(i);
				if (m.methodType() == QMetaMethod::Signal) {
				h += QString(m.signature()) + "\n";
				}
				}
				}
				}
				return h;
				}

				PythonQtSlotInfo* PythonQtClassInfo::constructors()
				{
				if (!_constructors) {
				// force creation of lazy decorator, which will register the decorators
				decorator();
				_constructors = PythonQt::priv()->getConstructorSlot(!_wrappedClassName.isEmpty()?_wrappedClassName:QByteArray(_meta->className()));
				}
				return _constructors;
				}

				void PythonQtClassInfo::setMetaObject(const QMetaObject* meta)
				{
				_meta = meta;
				clearCachedMembers();
				}

				QObject* PythonQtClassInfo::decorator()
				{
				if (!_decoratorProvider && _decoratorProviderCB) {
				_decoratorProvider = (*_decoratorProviderCB)();
				if (_decoratorProvider) {
				_decoratorProvider->setParent(PythonQt::priv());
				PythonQt::priv()->addDecorators(_decoratorProvider, PythonQtPrivate::ConstructorDecorator \| PythonQtPrivate::DestructorDecorator);
				}
				}
				return _decoratorProvider;
				}

				bool PythonQtClassInfo::hasOwnerMethodButNoOwner(void* object)
				{
				PythonQtMemberInfo info = member("hasOwner");
				if (info._type == PythonQtMemberInfo::Slot) {
				void* obj = object;
				bool result = false;
				void* args[2];
				args[0] = &result;
				args[1] = &obj;
				info._slot->decorator()->qt_metacall(QMetaObject::InvokeMetaMethod, info._slot->slotIndex(), args);
				return !result;
				} else {
				return false;
				}
				}