GIT_REPOSITORIES/LPP/PythonQt Files · generated_cpp/com_trolltech_qt_gui/PythonQtWrapper_QPolygonF.cpp

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             PythonQtWrapper_QPolygonF.cpp
        
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      #include "PythonQtWrapper_QPolygonF.h"

      #include <PythonQtSignalReceiver.h>

      #include <PythonQtMethodInfo.h>

      #include <PythonQtConversion.h>

      #include <QVariant>

      #include <qdatastream.h>

      #include <qlist.h>

      #include <qpoint.h>

      #include <qpolygon.h>

      #include <qrect.h>

      #include <qvector.h>

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF()

      { 

      return new QPolygonF(); }

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QPolygon&  a)

      { 

      return new QPolygonF(a); }

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QPolygonF&  a)

      { 

      return new QPolygonF(a); }

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QRectF&  r)

      { 

      return new QPolygonF(r); }

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QVector<QPointF >&  v)

      { 

      return new QPolygonF(v); }

      QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(int  size)

      { 

      return new QPolygonF(size); }

      int  PythonQtWrapper_QPolygonF::indexOf(QPolygonF* theWrappedObject, const QPointF&  t, int  from) const

      {

        return ( theWrappedObject->indexOf(t, from));

      }

      const QPointF*  PythonQtWrapper_QPolygonF::first(QPolygonF* theWrappedObject) const

      {

        return &( theWrappedObject->first());

      }

      bool  PythonQtWrapper_QPolygonF::operator_equal(QPolygonF* theWrappedObject, const QVector<QPointF >&  v) const

      {

        return ( (*theWrappedObject)== v);

      }

      void PythonQtWrapper_QPolygonF::remove(QPolygonF* theWrappedObject, int  i)

      {

        ( theWrappedObject->remove(i));

      }

      bool  PythonQtWrapper_QPolygonF::contains(QPolygonF* theWrappedObject, const QPointF&  t) const

      {

        return ( theWrappedObject->contains(t));

      }

      void PythonQtWrapper_QPolygonF::translate(QPolygonF* theWrappedObject, const QPointF&  offset)

      {

        ( theWrappedObject->translate(offset));

      }

      void PythonQtWrapper_QPolygonF::translate(QPolygonF* theWrappedObject, qreal  dx, qreal  dy)

      {

        ( theWrappedObject->translate(dx, dy));

      }

      QPolygonF  PythonQtWrapper_QPolygonF::united(QPolygonF* theWrappedObject, const QPolygonF&  r) const

      {

        return ( theWrappedObject->united(r));

      }

      QRectF  PythonQtWrapper_QPolygonF::boundingRect(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->boundingRect());

      }

      void PythonQtWrapper_QPolygonF::clear(QPolygonF* theWrappedObject)

      {

        ( theWrappedObject->clear());

      }

      int  PythonQtWrapper_QPolygonF::lastIndexOf(QPolygonF* theWrappedObject, const QPointF&  t, int  from) const

      {

        return ( theWrappedObject->lastIndexOf(t, from));

      }

      int  PythonQtWrapper_QPolygonF::size(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->size());

      }

      void PythonQtWrapper_QPolygonF::append(QPolygonF* theWrappedObject, const QPointF&  t)

      {

        ( theWrappedObject->append(t));

      }

      int  PythonQtWrapper_QPolygonF::capacity(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->capacity());

      }

      QVector<QPointF >  PythonQtWrapper_QPolygonF::mid(QPolygonF* theWrappedObject, int  pos, int  length) const

      {

        return ( theWrappedObject->mid(pos, length));

      }

      bool  PythonQtWrapper_QPolygonF::containsPoint(QPolygonF* theWrappedObject, const QPointF&  pt, Qt::FillRule  fillRule) const

      {

        return ( theWrappedObject->containsPoint(pt, fillRule));

      }

      QVector<QPointF >*  PythonQtWrapper_QPolygonF::fill(QPolygonF* theWrappedObject, const QPointF&  t, int  size)

      {

        return &( theWrappedObject->fill(t, size));

      }

      QPolygonF  PythonQtWrapper_QPolygonF::intersected(QPolygonF* theWrappedObject, const QPolygonF&  r) const

      {

        return ( theWrappedObject->intersected(r));

      }

      void PythonQtWrapper_QPolygonF::writeTo(QPolygonF* theWrappedObject, QDataStream&  stream)

      {

        stream <<  (*theWrappedObject);

      }

      void PythonQtWrapper_QPolygonF::setSharable(QPolygonF* theWrappedObject, bool  sharable)

      {

        ( theWrappedObject->setSharable(sharable));

      }

      void PythonQtWrapper_QPolygonF::resize(QPolygonF* theWrappedObject, int  size)

      {

        ( theWrappedObject->resize(size));

      }

      QPointF  PythonQtWrapper_QPolygonF::value(QPolygonF* theWrappedObject, int  i, const QPointF&  defaultValue) const

      {

        return ( theWrappedObject->value(i, defaultValue));

      }

      void PythonQtWrapper_QPolygonF::reserve(QPolygonF* theWrappedObject, int  size)

      {

        ( theWrappedObject->reserve(size));

      }

      void PythonQtWrapper_QPolygonF::squeeze(QPolygonF* theWrappedObject)

      {

        ( theWrappedObject->squeeze());

      }

      void PythonQtWrapper_QPolygonF::pop_back(QPolygonF* theWrappedObject)

      {

        ( theWrappedObject->pop_back());

      }

      void PythonQtWrapper_QPolygonF::replace(QPolygonF* theWrappedObject, int  i, const QPointF&  t)

      {

        ( theWrappedObject->replace(i, t));

      }

      void PythonQtWrapper_QPolygonF::push_back(QPolygonF* theWrappedObject, const QPointF&  t)

      {

        ( theWrappedObject->push_back(t));

      }

      QVector<QPointF >  PythonQtWrapper_QPolygonF::static_QPolygonF_fromList(const QList<QPointF >&  list)

      {

        return (QPolygonF::fromList(list));

      }

      void PythonQtWrapper_QPolygonF::remove(QPolygonF* theWrappedObject, int  i, int  n)

      {

        ( theWrappedObject->remove(i, n));

      }

      void PythonQtWrapper_QPolygonF::readFrom(QPolygonF* theWrappedObject, QDataStream&  stream)

      {

        stream >>  (*theWrappedObject);

      }

      void PythonQtWrapper_QPolygonF::push_front(QPolygonF* theWrappedObject, const QPointF&  t)

      {

        ( theWrappedObject->push_front(t));

      }

      bool  PythonQtWrapper_QPolygonF::isClosed(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->isClosed());

      }

      QList<QPointF >  PythonQtWrapper_QPolygonF::toList(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->toList());

      }

      QPointF  PythonQtWrapper_QPolygonF::value(QPolygonF* theWrappedObject, int  i) const

      {

        return ( theWrappedObject->value(i));

      }

      QPolygonF  PythonQtWrapper_QPolygonF::subtracted(QPolygonF* theWrappedObject, const QPolygonF&  r) const

      {

        return ( theWrappedObject->subtracted(r));

      }

      QPolygon  PythonQtWrapper_QPolygonF::toPolygon(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->toPolygon());

      }

      const QPointF*  PythonQtWrapper_QPolygonF::at(QPolygonF* theWrappedObject, int  i) const

      {

        return &( theWrappedObject->at(i));

      }

      bool  PythonQtWrapper_QPolygonF::empty(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->empty());

      }

      int  PythonQtWrapper_QPolygonF::count(QPolygonF* theWrappedObject, const QPointF&  t) const

      {

        return ( theWrappedObject->count(t));

      }

      void PythonQtWrapper_QPolygonF::pop_front(QPolygonF* theWrappedObject)

      {

        ( theWrappedObject->pop_front());

      }

      int  PythonQtWrapper_QPolygonF::count(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->count());

      }

      bool  PythonQtWrapper_QPolygonF::isEmpty(QPolygonF* theWrappedObject) const

      {

        return ( theWrappedObject->isEmpty());

      }

      const QPointF*  PythonQtWrapper_QPolygonF::last(QPolygonF* theWrappedObject) const

      {

        return &( theWrappedObject->last());

      }

      void PythonQtWrapper_QPolygonF::prepend(QPolygonF* theWrappedObject, const QPointF&  t)

      {

        ( theWrappedObject->prepend(t));

      }

      QString PythonQtWrapper_QPolygonF::toString(QPolygonF* obj) {

        QString result;

        QDebug d(&result);

        d << *obj;

        return result;

      }

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				#include "PythonQtWrapper_QPolygonF.h"

				#include <PythonQtSignalReceiver.h>
				#include <PythonQtMethodInfo.h>
				#include <PythonQtConversion.h>
				#include <QVariant>
				#include <qdatastream.h>
				#include <qlist.h>
				#include <qpoint.h>
				#include <qpolygon.h>
				#include <qrect.h>
				#include <qvector.h>

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF()
				{
				return new QPolygonF(); }

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QPolygon& a)
				{
				return new QPolygonF(a); }

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QPolygonF& a)
				{
				return new QPolygonF(a); }

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QRectF& r)
				{
				return new QPolygonF(r); }

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(const QVector<QPointF >& v)
				{
				return new QPolygonF(v); }

				QPolygonF* PythonQtWrapper_QPolygonF::new_QPolygonF(int size)
				{
				return new QPolygonF(size); }

				int PythonQtWrapper_QPolygonF::indexOf(QPolygonF* theWrappedObject, const QPointF& t, int from) const
				{
				return ( theWrappedObject->indexOf(t, from));
				}

				const QPointF* PythonQtWrapper_QPolygonF::first(QPolygonF* theWrappedObject) const
				{
				return &( theWrappedObject->first());
				}

				bool PythonQtWrapper_QPolygonF::operator_equal(QPolygonF* theWrappedObject, const QVector<QPointF >& v) const
				{
				return ( (*theWrappedObject)== v);
				}

				void PythonQtWrapper_QPolygonF::remove(QPolygonF* theWrappedObject, int i)
				{
				( theWrappedObject->remove(i));
				}

				bool PythonQtWrapper_QPolygonF::contains(QPolygonF* theWrappedObject, const QPointF& t) const
				{
				return ( theWrappedObject->contains(t));
				}

				void PythonQtWrapper_QPolygonF::translate(QPolygonF* theWrappedObject, const QPointF& offset)
				{
				( theWrappedObject->translate(offset));
				}

				void PythonQtWrapper_QPolygonF::translate(QPolygonF* theWrappedObject, qreal dx, qreal dy)
				{
				( theWrappedObject->translate(dx, dy));
				}

				QPolygonF PythonQtWrapper_QPolygonF::united(QPolygonF* theWrappedObject, const QPolygonF& r) const
				{
				return ( theWrappedObject->united(r));
				}

				QRectF PythonQtWrapper_QPolygonF::boundingRect(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->boundingRect());
				}

				void PythonQtWrapper_QPolygonF::clear(QPolygonF* theWrappedObject)
				{
				( theWrappedObject->clear());
				}

				int PythonQtWrapper_QPolygonF::lastIndexOf(QPolygonF* theWrappedObject, const QPointF& t, int from) const
				{
				return ( theWrappedObject->lastIndexOf(t, from));
				}

				int PythonQtWrapper_QPolygonF::size(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->size());
				}

				void PythonQtWrapper_QPolygonF::append(QPolygonF* theWrappedObject, const QPointF& t)
				{
				( theWrappedObject->append(t));
				}

				int PythonQtWrapper_QPolygonF::capacity(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->capacity());
				}

				QVector<QPointF > PythonQtWrapper_QPolygonF::mid(QPolygonF* theWrappedObject, int pos, int length) const
				{
				return ( theWrappedObject->mid(pos, length));
				}

				bool PythonQtWrapper_QPolygonF::containsPoint(QPolygonF* theWrappedObject, const QPointF& pt, Qt::FillRule fillRule) const
				{
				return ( theWrappedObject->containsPoint(pt, fillRule));
				}

				QVector<QPointF >* PythonQtWrapper_QPolygonF::fill(QPolygonF* theWrappedObject, const QPointF& t, int size)
				{
				return &( theWrappedObject->fill(t, size));
				}

				QPolygonF PythonQtWrapper_QPolygonF::intersected(QPolygonF* theWrappedObject, const QPolygonF& r) const
				{
				return ( theWrappedObject->intersected(r));
				}

				void PythonQtWrapper_QPolygonF::writeTo(QPolygonF* theWrappedObject, QDataStream& stream)
				{
				stream << (*theWrappedObject);
				}

				void PythonQtWrapper_QPolygonF::setSharable(QPolygonF* theWrappedObject, bool sharable)
				{
				( theWrappedObject->setSharable(sharable));
				}

				void PythonQtWrapper_QPolygonF::resize(QPolygonF* theWrappedObject, int size)
				{
				( theWrappedObject->resize(size));
				}

				QPointF PythonQtWrapper_QPolygonF::value(QPolygonF* theWrappedObject, int i, const QPointF& defaultValue) const
				{
				return ( theWrappedObject->value(i, defaultValue));
				}

				void PythonQtWrapper_QPolygonF::reserve(QPolygonF* theWrappedObject, int size)
				{
				( theWrappedObject->reserve(size));
				}

				void PythonQtWrapper_QPolygonF::squeeze(QPolygonF* theWrappedObject)
				{
				( theWrappedObject->squeeze());
				}

				void PythonQtWrapper_QPolygonF::pop_back(QPolygonF* theWrappedObject)
				{
				( theWrappedObject->pop_back());
				}

				void PythonQtWrapper_QPolygonF::replace(QPolygonF* theWrappedObject, int i, const QPointF& t)
				{
				( theWrappedObject->replace(i, t));
				}

				void PythonQtWrapper_QPolygonF::push_back(QPolygonF* theWrappedObject, const QPointF& t)
				{
				( theWrappedObject->push_back(t));
				}

				QVector<QPointF > PythonQtWrapper_QPolygonF::static_QPolygonF_fromList(const QList<QPointF >& list)
				{
				return (QPolygonF::fromList(list));
				}

				void PythonQtWrapper_QPolygonF::remove(QPolygonF* theWrappedObject, int i, int n)
				{
				( theWrappedObject->remove(i, n));
				}

				void PythonQtWrapper_QPolygonF::readFrom(QPolygonF* theWrappedObject, QDataStream& stream)
				{
				stream >> (*theWrappedObject);
				}

				void PythonQtWrapper_QPolygonF::push_front(QPolygonF* theWrappedObject, const QPointF& t)
				{
				( theWrappedObject->push_front(t));
				}

				bool PythonQtWrapper_QPolygonF::isClosed(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->isClosed());
				}

				QList<QPointF > PythonQtWrapper_QPolygonF::toList(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->toList());
				}

				QPointF PythonQtWrapper_QPolygonF::value(QPolygonF* theWrappedObject, int i) const
				{
				return ( theWrappedObject->value(i));
				}

				QPolygonF PythonQtWrapper_QPolygonF::subtracted(QPolygonF* theWrappedObject, const QPolygonF& r) const
				{
				return ( theWrappedObject->subtracted(r));
				}

				QPolygon PythonQtWrapper_QPolygonF::toPolygon(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->toPolygon());
				}

				const QPointF* PythonQtWrapper_QPolygonF::at(QPolygonF* theWrappedObject, int i) const
				{
				return &( theWrappedObject->at(i));
				}

				bool PythonQtWrapper_QPolygonF::empty(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->empty());
				}

				int PythonQtWrapper_QPolygonF::count(QPolygonF* theWrappedObject, const QPointF& t) const
				{
				return ( theWrappedObject->count(t));
				}

				void PythonQtWrapper_QPolygonF::pop_front(QPolygonF* theWrappedObject)
				{
				( theWrappedObject->pop_front());
				}

				int PythonQtWrapper_QPolygonF::count(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->count());
				}

				bool PythonQtWrapper_QPolygonF::isEmpty(QPolygonF* theWrappedObject) const
				{
				return ( theWrappedObject->isEmpty());
				}

				const QPointF* PythonQtWrapper_QPolygonF::last(QPolygonF* theWrappedObject) const
				{
				return &( theWrappedObject->last());
				}

				void PythonQtWrapper_QPolygonF::prepend(QPolygonF* theWrappedObject, const QPointF& t)
				{
				( theWrappedObject->prepend(t));
				}

				QString PythonQtWrapper_QPolygonF::toString(QPolygonF* obj) {
				QString result;
				QDebug d(&result);
				d << *obj;
				return result;
				}