PythonQtWrapper_QPolygon.cpp
243 lines
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| text/x-c
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CppLexer
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r13 | #include "PythonQtWrapper_QPolygon.h" | ||
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r24 | #include <PythonQtSignalReceiver.h> | ||
#include <PythonQtMethodInfo.h> | ||||
#include <PythonQtConversion.h> | ||||
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r13 | #include <QVariant> | ||
#include <qdatastream.h> | ||||
#include <qlist.h> | ||||
#include <qpoint.h> | ||||
#include <qpolygon.h> | ||||
#include <qrect.h> | ||||
#include <qvector.h> | ||||
QPolygon* PythonQtWrapper_QPolygon::new_QPolygon() | ||||
{ | ||||
return new QPolygon(); } | ||||
QPolygon* PythonQtWrapper_QPolygon::new_QPolygon(const QPolygon& a) | ||||
{ | ||||
return new QPolygon(a); } | ||||
QPolygon* PythonQtWrapper_QPolygon::new_QPolygon(const QRect& r, bool closed) | ||||
{ | ||||
return new QPolygon(r, closed); } | ||||
QPolygon* PythonQtWrapper_QPolygon::new_QPolygon(const QVector<QPoint >& v) | ||||
{ | ||||
return new QPolygon(v); } | ||||
QPolygon* PythonQtWrapper_QPolygon::new_QPolygon(int size) | ||||
{ | ||||
return new QPolygon(size); } | ||||
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r28 | void PythonQtWrapper_QPolygon::resize(QPolygon* theWrappedObject, int size) | ||
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r13 | { | ||
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r28 | theWrappedObject->resize(size); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::pop_front(QPolygon* theWrappedObject) | ||
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r13 | { | ||
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r28 | theWrappedObject->pop_front(); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::reserve(QPolygon* theWrappedObject, int size) | ||
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r13 | { | ||
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r28 | theWrappedObject->reserve(size); | ||
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r13 | } | ||
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r28 | QPolygon PythonQtWrapper_QPolygon::subtracted(QPolygon* theWrappedObject, const QPolygon& r) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->subtracted(r); | ||
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r13 | } | ||
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r28 | QRect PythonQtWrapper_QPolygon::boundingRect(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->boundingRect(); | ||
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r13 | } | ||
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r28 | QVector<QPoint > PythonQtWrapper_QPolygon::mid(QPolygon* theWrappedObject, int pos, int length) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->mid(pos, length); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::setSharable(QPolygon* theWrappedObject, bool sharable) | ||
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r13 | { | ||
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r28 | theWrappedObject->setSharable(sharable); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::remove(QPolygon* theWrappedObject, int i, int n) | ||
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r13 | { | ||
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r28 | theWrappedObject->remove(i, n); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::writeTo(QPolygon* theWrappedObject, QDataStream& stream) | ||
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r13 | { | ||
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r28 | stream << (*theWrappedObject); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::remove(QPolygon* theWrappedObject, int i) | ||
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r13 | { | ||
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r28 | theWrappedObject->remove(i); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::replace(QPolygon* theWrappedObject, int i, const QPoint& t) | ||
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r13 | { | ||
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r28 | theWrappedObject->replace(i, t); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::readFrom(QPolygon* theWrappedObject, QDataStream& stream) | ||
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r13 | { | ||
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r28 | stream >> (*theWrappedObject); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::push_back(QPolygon* theWrappedObject, const QPoint& t) | ||
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r13 | { | ||
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r28 | theWrappedObject->push_back(t); | ||
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r13 | } | ||
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r28 | int PythonQtWrapper_QPolygon::indexOf(QPolygon* theWrappedObject, const QPoint& t, int from) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->indexOf(t, from); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::pop_back(QPolygon* theWrappedObject) | ||
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r13 | { | ||
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r28 | theWrappedObject->pop_back(); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::clear(QPolygon* theWrappedObject) | ||
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r13 | { | ||
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r28 | theWrappedObject->clear(); | ||
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r13 | } | ||
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r28 | bool PythonQtWrapper_QPolygon::operator_equal(QPolygon* theWrappedObject, const QVector<QPoint >& v) const | ||
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r13 | { | ||
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r28 | return (*theWrappedObject)== v; | ||
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r13 | } | ||
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r28 | QPoint PythonQtWrapper_QPolygon::value(QPolygon* theWrappedObject, int i, const QPoint& defaultValue) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->value(i, defaultValue); | ||
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r13 | } | ||
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r28 | bool PythonQtWrapper_QPolygon::empty(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->empty(); | ||
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r13 | } | ||
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r28 | const QPoint& PythonQtWrapper_QPolygon::first(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->first(); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::squeeze(QPolygon* theWrappedObject) | ||
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r13 | { | ||
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r28 | theWrappedObject->squeeze(); | ||
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r13 | } | ||
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r28 | QVector<QPoint >& PythonQtWrapper_QPolygon::fill(QPolygon* theWrappedObject, const QPoint& t, int size) | ||
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r13 | { | ||
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r28 | return theWrappedObject->fill(t, size); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::prepend(QPolygon* theWrappedObject, const QPoint& t) | ||
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r13 | { | ||
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r28 | theWrappedObject->prepend(t); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::translate(QPolygon* theWrappedObject, int dx, int dy) | ||
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r13 | { | ||
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r28 | theWrappedObject->translate(dx, dy); | ||
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r13 | } | ||
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r28 | QList<QPoint > PythonQtWrapper_QPolygon::toList(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->toList(); | ||
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r13 | } | ||
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r28 | QPoint PythonQtWrapper_QPolygon::value(QPolygon* theWrappedObject, int i) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->value(i); | ||
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r13 | } | ||
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r28 | int PythonQtWrapper_QPolygon::count(QPolygon* theWrappedObject, const QPoint& t) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->count(t); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::translate(QPolygon* theWrappedObject, const QPoint& offset) | ||
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r13 | { | ||
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r28 | theWrappedObject->translate(offset); | ||
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r13 | } | ||
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r28 | QPolygon PythonQtWrapper_QPolygon::united(QPolygon* theWrappedObject, const QPolygon& r) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->united(r); | ||
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r13 | } | ||
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r28 | int PythonQtWrapper_QPolygon::count(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->count(); | ||
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r13 | } | ||
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r28 | int PythonQtWrapper_QPolygon::capacity(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->capacity(); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::append(QPolygon* theWrappedObject, const QPoint& t) | ||
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r13 | { | ||
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r28 | theWrappedObject->append(t); | ||
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r13 | } | ||
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r28 | QVector<QPoint > PythonQtWrapper_QPolygon::static_QPolygon_fromList(const QList<QPoint >& list) | ||
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r13 | { | ||
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r28 | return QPolygon::fromList(list); | ||
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r13 | } | ||
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r28 | bool PythonQtWrapper_QPolygon::isEmpty(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->isEmpty(); | ||
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r13 | } | ||
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r28 | void PythonQtWrapper_QPolygon::push_front(QPolygon* theWrappedObject, const QPoint& t) | ||
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r13 | { | ||
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r28 | theWrappedObject->push_front(t); | ||
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r13 | } | ||
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r28 | const QPoint& PythonQtWrapper_QPolygon::at(QPolygon* theWrappedObject, int i) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->at(i); | ||
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r13 | } | ||
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r28 | bool PythonQtWrapper_QPolygon::contains(QPolygon* theWrappedObject, const QPoint& t) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->contains(t); | ||
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r13 | } | ||
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r24 | int PythonQtWrapper_QPolygon::lastIndexOf(QPolygon* theWrappedObject, const QPoint& t, int from) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->lastIndexOf(t, from); | ||
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r13 | } | ||
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r24 | int PythonQtWrapper_QPolygon::size(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->size(); | ||
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r13 | } | ||
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r28 | const QPoint& PythonQtWrapper_QPolygon::last(QPolygon* theWrappedObject) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->last(); | ||
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r13 | } | ||
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r28 | QPolygon PythonQtWrapper_QPolygon::intersected(QPolygon* theWrappedObject, const QPolygon& r) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->intersected(r); | ||
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r13 | } | ||
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r28 | bool PythonQtWrapper_QPolygon::containsPoint(QPolygon* theWrappedObject, const QPoint& pt, Qt::FillRule fillRule) const | ||
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r13 | { | ||
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r28 | return theWrappedObject->containsPoint(pt, fillRule); | ||
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r13 | } | ||