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#ifndef PYTHONQTWRAPPER_QPOLYGONF_H
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#define PYTHONQTWRAPPER_QPOLYGONF_H
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#include <qpolygon.h>
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#include <QObject>
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#include <PythonQt.h>
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#include <QVariant>
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#include <qdatastream.h>
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#include <qlist.h>
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#include <qpoint.h>
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#include <qpolygon.h>
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#include <qrect.h>
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#include <qvector.h>
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class PythonQtWrapper_QPolygonF : public QObject
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{ Q_OBJECT
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public:
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public slots:
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QPolygonF* new_QPolygonF();
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QPolygonF* new_QPolygonF(const QPolygon& a);
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QPolygonF* new_QPolygonF(const QPolygonF& a);
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QPolygonF* new_QPolygonF(const QRectF& r);
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QPolygonF* new_QPolygonF(const QVector<QPointF >& v);
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QPolygonF* new_QPolygonF(int size);
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void delete_QPolygonF(QPolygonF* obj) { delete obj; }
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int indexOf(QPolygonF* theWrappedObject, const QPointF& t, int from) const;
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const QPointF* first(QPolygonF* theWrappedObject) const;
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bool operator_equal(QPolygonF* theWrappedObject, const QVector<QPointF >& v) const;
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void remove(QPolygonF* theWrappedObject, int i);
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bool contains(QPolygonF* theWrappedObject, const QPointF& t) const;
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void translate(QPolygonF* theWrappedObject, const QPointF& offset);
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void translate(QPolygonF* theWrappedObject, qreal dx, qreal dy);
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QPolygonF united(QPolygonF* theWrappedObject, const QPolygonF& r) const;
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QRectF boundingRect(QPolygonF* theWrappedObject) const;
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void clear(QPolygonF* theWrappedObject);
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int lastIndexOf(QPolygonF* theWrappedObject, const QPointF& t, int from) const;
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int size(QPolygonF* theWrappedObject) const;
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void append(QPolygonF* theWrappedObject, const QPointF& t);
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int capacity(QPolygonF* theWrappedObject) const;
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QVector<QPointF > mid(QPolygonF* theWrappedObject, int pos, int length) const;
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bool containsPoint(QPolygonF* theWrappedObject, const QPointF& pt, Qt::FillRule fillRule) const;
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QVector<QPointF >* fill(QPolygonF* theWrappedObject, const QPointF& t, int size);
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QPolygonF intersected(QPolygonF* theWrappedObject, const QPolygonF& r) const;
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void writeTo(QPolygonF* theWrappedObject, QDataStream& stream);
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void setSharable(QPolygonF* theWrappedObject, bool sharable);
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void resize(QPolygonF* theWrappedObject, int size);
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QPointF value(QPolygonF* theWrappedObject, int i, const QPointF& defaultValue) const;
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void reserve(QPolygonF* theWrappedObject, int size);
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void squeeze(QPolygonF* theWrappedObject);
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void pop_back(QPolygonF* theWrappedObject);
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void replace(QPolygonF* theWrappedObject, int i, const QPointF& t);
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void push_back(QPolygonF* theWrappedObject, const QPointF& t);
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QVector<QPointF > static_QPolygonF_fromList(const QList<QPointF >& list);
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void remove(QPolygonF* theWrappedObject, int i, int n);
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void readFrom(QPolygonF* theWrappedObject, QDataStream& stream);
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void push_front(QPolygonF* theWrappedObject, const QPointF& t);
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bool isClosed(QPolygonF* theWrappedObject) const;
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QList<QPointF > toList(QPolygonF* theWrappedObject) const;
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QPointF value(QPolygonF* theWrappedObject, int i) const;
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QPolygonF subtracted(QPolygonF* theWrappedObject, const QPolygonF& r) const;
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QPolygon toPolygon(QPolygonF* theWrappedObject) const;
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const QPointF* at(QPolygonF* theWrappedObject, int i) const;
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bool empty(QPolygonF* theWrappedObject) const;
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int count(QPolygonF* theWrappedObject, const QPointF& t) const;
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void pop_front(QPolygonF* theWrappedObject);
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int count(QPolygonF* theWrappedObject) const;
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bool isEmpty(QPolygonF* theWrappedObject) const;
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const QPointF* last(QPolygonF* theWrappedObject) const;
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void prepend(QPolygonF* theWrappedObject, const QPointF& t);
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QString toString(QPolygonF*);
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};
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#endif // PYTHONQTWRAPPER_QPOLYGONF_H
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