GIT_REPOSITORIES/LPP/PythonQt Files · generated_cpp/com_trolltech_qt_network/PythonQtWrapper_QUdpSocket.cpp

added builtin support for variants etc., this will replace the direct includes in PythonQt...

added builtin support for variants etc., this will replace the direct includes in PythonQt git-svn-id: svn://svn.code.sf.net/p/pythonqt/code/trunk@129 ea8d5007-eb21-0410-b261-ccb3ea6e24a9

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             PythonQtWrapper_QUdpSocket.cpp
        
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      #include "PythonQtWrapper_QUdpSocket.h"

      #include <PythonQtSignalReceiver.h>

      #include <PythonQtMethodInfo.h>

      #include <PythonQtConversion.h>

      #include <QVariant>

      #include <qauthenticator.h>

      #include <qbytearray.h>

      #include <qcoreevent.h>

      #include <qhostaddress.h>

      #include <qlist.h>

      #include <qnetworkproxy.h>

      #include <qobject.h>

      #include <qudpsocket.h>

      bool  PythonQtShell_QUdpSocket::atEnd() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "atEnd");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            bool returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("atEnd", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::atEnd();

      }

      qint64  PythonQtShell_QUdpSocket::bytesAvailable() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "bytesAvailable");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            qint64 returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("bytesAvailable", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::bytesAvailable();

      }

      qint64  PythonQtShell_QUdpSocket::bytesToWrite() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "bytesToWrite");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            qint64 returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("bytesToWrite", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::bytesToWrite();

      }

      bool  PythonQtShell_QUdpSocket::canReadLine() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "canReadLine");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            bool returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("canReadLine", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::canReadLine();

      }

      void PythonQtShell_QUdpSocket::childEvent(QChildEvent*  arg__1)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "childEvent");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"" , "QChildEvent*"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

          void* args[2] = {NULL, (void*)&arg__1};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return;

        }

      }

        QUdpSocket::childEvent(arg__1);

      }

      void PythonQtShell_QUdpSocket::close()

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "close");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={""};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return;

        }

      }

        QUdpSocket::close();

      }

      void PythonQtShell_QUdpSocket::customEvent(QEvent*  arg__1)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "customEvent");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"" , "QEvent*"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

          void* args[2] = {NULL, (void*)&arg__1};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return;

        }

      }

        QUdpSocket::customEvent(arg__1);

      }

      bool  PythonQtShell_QUdpSocket::event(QEvent*  arg__1)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "event");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "QEvent*"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

            bool returnValue;

          void* args[2] = {NULL, (void*)&arg__1};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("event", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::event(arg__1);

      }

      bool  PythonQtShell_QUdpSocket::eventFilter(QObject*  arg__1, QEvent*  arg__2)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "eventFilter");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "QObject*" , "QEvent*"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);

            bool returnValue;

          void* args[3] = {NULL, (void*)&arg__1, (void*)&arg__2};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("eventFilter", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::eventFilter(arg__1, arg__2);

      }

      bool  PythonQtShell_QUdpSocket::isSequential() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "isSequential");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            bool returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("isSequential", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::isSequential();

      }

      bool  PythonQtShell_QUdpSocket::open(QIODevice::OpenMode  mode)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "open");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "QIODevice::OpenMode"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

            bool returnValue;

          void* args[2] = {NULL, (void*)&mode};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("open", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::open(mode);

      }

      qint64  PythonQtShell_QUdpSocket::pos() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "pos");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            qint64 returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("pos", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::pos();

      }

      qint64  PythonQtShell_QUdpSocket::readData(char*  data, qint64  maxlen)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "readData");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64" , "char*" , "qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);

            qint64 returnValue;

          void* args[3] = {NULL, (void*)&data, (void*)&maxlen};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("readData", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::readData(data, maxlen);

      }

      qint64  PythonQtShell_QUdpSocket::readLineData(char*  data, qint64  maxlen)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "readLineData");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64" , "char*" , "qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);

            qint64 returnValue;

          void* args[3] = {NULL, (void*)&data, (void*)&maxlen};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("readLineData", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::readLineData(data, maxlen);

      }

      bool  PythonQtShell_QUdpSocket::reset()

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "reset");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            bool returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("reset", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::reset();

      }

      bool  PythonQtShell_QUdpSocket::seek(qint64  pos)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "seek");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

            bool returnValue;

          void* args[2] = {NULL, (void*)&pos};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("seek", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::seek(pos);

      }

      qint64  PythonQtShell_QUdpSocket::size() const

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "size");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);

            qint64 returnValue;

          void* args[1] = {NULL};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("size", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::size();

      }

      void PythonQtShell_QUdpSocket::timerEvent(QTimerEvent*  arg__1)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "timerEvent");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"" , "QTimerEvent*"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

          void* args[2] = {NULL, (void*)&arg__1};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return;

        }

      }

        QUdpSocket::timerEvent(arg__1);

      }

      bool  PythonQtShell_QUdpSocket::waitForBytesWritten(int  msecs)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "waitForBytesWritten");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "int"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

            bool returnValue;

          void* args[2] = {NULL, (void*)&msecs};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("waitForBytesWritten", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::waitForBytesWritten(msecs);

      }

      bool  PythonQtShell_QUdpSocket::waitForReadyRead(int  msecs)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "waitForReadyRead");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"bool" , "int"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);

            bool returnValue;

          void* args[2] = {NULL, (void*)&msecs};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("waitForReadyRead", methodInfo, result);

              } else {

                returnValue = *((bool*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::waitForReadyRead(msecs);

      }

      qint64  PythonQtShell_QUdpSocket::writeData(const char*  data, qint64  len)

      {

      if (_wrapper) {

        PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "writeData");

        PyErr_Clear();

        if (obj && !PythonQtSlotFunction_Check(obj)) {

          static const char* argumentList[] ={"qint64" , "const char*" , "qint64"};

          static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);

            qint64 returnValue;

          void* args[3] = {NULL, (void*)&data, (void*)&len};

          PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);

          if (result) {

            args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);

            if (args[0]!=&returnValue) {

              if (args[0]==NULL) {

                PythonQt::priv()->handleVirtualOverloadReturnError("writeData", methodInfo, result);

              } else {

                returnValue = *((qint64*)args[0]);

              }

            }

          }

          if (result) { Py_DECREF(result); } 

          Py_DECREF(obj);

          return returnValue;

        }

      }

        return QUdpSocket::writeData(data, len);

      }

      QUdpSocket* PythonQtWrapper_QUdpSocket::new_QUdpSocket(QObject*  parent)

      { 

      return new PythonQtShell_QUdpSocket(parent); }

      qint64  PythonQtWrapper_QUdpSocket::pendingDatagramSize(QUdpSocket* theWrappedObject) const

      {

        return ( theWrappedObject->pendingDatagramSize());

      }

      bool  PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, const QHostAddress&  address, unsigned short  port, QUdpSocket::BindMode  mode)

      {

        return ( theWrappedObject->bind(address, port, mode));

      }

      bool  PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, unsigned short  port, QUdpSocket::BindMode  mode)

      {

        return ( theWrappedObject->bind(port, mode));

      }

      bool  PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, const QHostAddress&  address, unsigned short  port)

      {

        return ( theWrappedObject->bind(address, port));

      }

      bool  PythonQtWrapper_QUdpSocket::hasPendingDatagrams(QUdpSocket* theWrappedObject) const

      {

        return ( theWrappedObject->hasPendingDatagrams());

      }

      qint64  PythonQtWrapper_QUdpSocket::readDatagram(QUdpSocket* theWrappedObject, char*  data, qint64  maxlen, QHostAddress*  host, unsigned short*  port)

      {

        return ( theWrappedObject->readDatagram(data, maxlen, host, port));

      }

      bool  PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, unsigned short  port)

      {

        return ( theWrappedObject->bind(port));

      }

      qint64  PythonQtWrapper_QUdpSocket::writeDatagram(QUdpSocket* theWrappedObject, const QByteArray&  datagram, const QHostAddress&  host, unsigned short  port)

      {

        return ( theWrappedObject->writeDatagram(datagram, host, port));

      }

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				#include "PythonQtWrapper_QUdpSocket.h"

				#include <PythonQtSignalReceiver.h>
				#include <PythonQtMethodInfo.h>
				#include <PythonQtConversion.h>
				#include <QVariant>
				#include <qauthenticator.h>
				#include <qbytearray.h>
				#include <qcoreevent.h>
				#include <qhostaddress.h>
				#include <qlist.h>
				#include <qnetworkproxy.h>
				#include <qobject.h>
				#include <qudpsocket.h>

				bool PythonQtShell_QUdpSocket::atEnd() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "atEnd");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				bool returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("atEnd", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::atEnd();
				}
				qint64 PythonQtShell_QUdpSocket::bytesAvailable() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "bytesAvailable");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				qint64 returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("bytesAvailable", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::bytesAvailable();
				}
				qint64 PythonQtShell_QUdpSocket::bytesToWrite() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "bytesToWrite");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				qint64 returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("bytesToWrite", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::bytesToWrite();
				}
				bool PythonQtShell_QUdpSocket::canReadLine() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "canReadLine");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				bool returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("canReadLine", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::canReadLine();
				}
				void PythonQtShell_QUdpSocket::childEvent(QChildEvent* arg__1)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "childEvent");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"" , "QChildEvent*"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				void* args[2] = {NULL, (void*)&arg__1};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return;
				}
				}
				QUdpSocket::childEvent(arg__1);
				}
				void PythonQtShell_QUdpSocket::close()
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "close");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={""};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return;
				}
				}
				QUdpSocket::close();
				}
				void PythonQtShell_QUdpSocket::customEvent(QEvent* arg__1)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "customEvent");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"" , "QEvent*"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				void* args[2] = {NULL, (void*)&arg__1};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return;
				}
				}
				QUdpSocket::customEvent(arg__1);
				}
				bool PythonQtShell_QUdpSocket::event(QEvent* arg__1)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "event");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "QEvent*"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				bool returnValue;
				void* args[2] = {NULL, (void*)&arg__1};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("event", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::event(arg__1);
				}
				bool PythonQtShell_QUdpSocket::eventFilter(QObject* arg__1, QEvent* arg__2)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "eventFilter");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "QObject" , "QEvent"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);
				bool returnValue;
				void* args[3] = {NULL, (void)&arg__1, (void)&arg__2};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("eventFilter", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::eventFilter(arg__1, arg__2);
				}
				bool PythonQtShell_QUdpSocket::isSequential() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "isSequential");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				bool returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("isSequential", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::isSequential();
				}
				bool PythonQtShell_QUdpSocket::open(QIODevice::OpenMode mode)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "open");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "QIODevice::OpenMode"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				bool returnValue;
				void* args[2] = {NULL, (void*)&mode};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("open", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::open(mode);
				}
				qint64 PythonQtShell_QUdpSocket::pos() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "pos");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				qint64 returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("pos", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::pos();
				}
				qint64 PythonQtShell_QUdpSocket::readData(char* data, qint64 maxlen)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "readData");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64" , "char*" , "qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);
				qint64 returnValue;
				void* args[3] = {NULL, (void)&data, (void)&maxlen};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("readData", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::readData(data, maxlen);
				}
				qint64 PythonQtShell_QUdpSocket::readLineData(char* data, qint64 maxlen)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "readLineData");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64" , "char*" , "qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);
				qint64 returnValue;
				void* args[3] = {NULL, (void)&data, (void)&maxlen};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("readLineData", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::readLineData(data, maxlen);
				}
				bool PythonQtShell_QUdpSocket::reset()
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "reset");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				bool returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("reset", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::reset();
				}
				bool PythonQtShell_QUdpSocket::seek(qint64 pos)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "seek");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				bool returnValue;
				void* args[2] = {NULL, (void*)&pos};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("seek", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::seek(pos);
				}
				qint64 PythonQtShell_QUdpSocket::size() const
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "size");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(1, argumentList);
				qint64 returnValue;
				void* args[1] = {NULL};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("size", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::size();
				}
				void PythonQtShell_QUdpSocket::timerEvent(QTimerEvent* arg__1)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "timerEvent");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"" , "QTimerEvent*"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				void* args[2] = {NULL, (void*)&arg__1};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return;
				}
				}
				QUdpSocket::timerEvent(arg__1);
				}
				bool PythonQtShell_QUdpSocket::waitForBytesWritten(int msecs)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "waitForBytesWritten");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "int"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				bool returnValue;
				void* args[2] = {NULL, (void*)&msecs};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("waitForBytesWritten", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::waitForBytesWritten(msecs);
				}
				bool PythonQtShell_QUdpSocket::waitForReadyRead(int msecs)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "waitForReadyRead");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"bool" , "int"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(2, argumentList);
				bool returnValue;
				void* args[2] = {NULL, (void*)&msecs};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("waitForReadyRead", methodInfo, result);
				} else {
				returnValue = ((bool)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::waitForReadyRead(msecs);
				}
				qint64 PythonQtShell_QUdpSocket::writeData(const char* data, qint64 len)
				{
				if (_wrapper) {
				PyObject* obj = PyObject_GetAttrString((PyObject*)_wrapper, "writeData");
				PyErr_Clear();
				if (obj && !PythonQtSlotFunction_Check(obj)) {
				static const char* argumentList[] ={"qint64" , "const char*" , "qint64"};
				static const PythonQtMethodInfo* methodInfo = PythonQtMethodInfo::getCachedMethodInfoFromArgumentList(3, argumentList);
				qint64 returnValue;
				void* args[3] = {NULL, (void)&data, (void)&len};
				PyObject* result = PythonQtSignalTarget::call(obj, methodInfo, args, true);
				if (result) {
				args[0] = PythonQtConv::ConvertPythonToQt(methodInfo->parameters().at(0), result, false, NULL, &returnValue);
				if (args[0]!=&returnValue) {
				if (args[0]==NULL) {
				PythonQt::priv()->handleVirtualOverloadReturnError("writeData", methodInfo, result);
				} else {
				returnValue = ((qint64)args[0]);
				}
				}
				}
				if (result) { Py_DECREF(result); }
				Py_DECREF(obj);
				return returnValue;
				}
				}
				return QUdpSocket::writeData(data, len);
				}
				QUdpSocket* PythonQtWrapper_QUdpSocket::new_QUdpSocket(QObject* parent)
				{
				return new PythonQtShell_QUdpSocket(parent); }

				qint64 PythonQtWrapper_QUdpSocket::pendingDatagramSize(QUdpSocket* theWrappedObject) const
				{
				return ( theWrappedObject->pendingDatagramSize());
				}

				bool PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, const QHostAddress& address, unsigned short port, QUdpSocket::BindMode mode)
				{
				return ( theWrappedObject->bind(address, port, mode));
				}

				bool PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, unsigned short port, QUdpSocket::BindMode mode)
				{
				return ( theWrappedObject->bind(port, mode));
				}

				bool PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, const QHostAddress& address, unsigned short port)
				{
				return ( theWrappedObject->bind(address, port));
				}

				bool PythonQtWrapper_QUdpSocket::hasPendingDatagrams(QUdpSocket* theWrappedObject) const
				{
				return ( theWrappedObject->hasPendingDatagrams());
				}

				qint64 PythonQtWrapper_QUdpSocket::readDatagram(QUdpSocket* theWrappedObject, char* data, qint64 maxlen, QHostAddress* host, unsigned short* port)
				{
				return ( theWrappedObject->readDatagram(data, maxlen, host, port));
				}

				bool PythonQtWrapper_QUdpSocket::bind(QUdpSocket* theWrappedObject, unsigned short port)
				{
				return ( theWrappedObject->bind(port));
				}

				qint64 PythonQtWrapper_QUdpSocket::writeDatagram(QUdpSocket* theWrappedObject, const QByteArray& datagram, const QHostAddress& host, unsigned short port)
				{
				return ( theWrappedObject->writeDatagram(datagram, host, port));
				}