bool ok_;
%RETURN_TYPE retval_ = %CPPSELF.%FUNCTION_NAME(&ok_);
%PYARG_0 = Shiboken::makeTuple(retval_, ok_);
bool ok_;
%RETURN_TYPE retval_ = %CPPSELF.%FUNCTION_NAME(%ARGUMENT_NAMES, &ok_);
%PYARG_0 = Shiboken::makeTuple(retval_, ok_);
bool ok_;
%RETURN_TYPE retval_ = %CPPSELF.%FUNCTION_NAME(%1, &ok_, %3);
%PYARG_0 = Shiboken::makeTuple(retval_, ok_);
bool ok_;
%RETURN_TYPE retval_ = %CPPSELF.%FUNCTION_NAME(&ok_, %2);
%PYARG_0 = Shiboken::makeTuple(retval_, ok_);
%TYPE* sequence;
Py_ssize_t start, end;
Py_ssize_t len = %CPPSELF->count();
if (_i1 > len)
start = len;
else if (_i1 < 0)
start = 0;
else
start = _i1;
if (_i2 > len)
end = len;
else if (_i2 < 0)
end = 0;
else
end = _i2;
sequence = new %TYPE();
for (Py_ssize_t i = start; i < end; i++)
sequence->append(%CPPSELF->at(i));
return %CONVERTTOPYTHON[%TYPE](*sequence);
QRectF rect_;
%CPPSELF.%FUNCTION_NAME(%ARGUMENT_NAMES, &rect_);
return %CONVERTTOPYTHON[QRectF](rect_);
QRect rect_;
%CPPSELF.%FUNCTION_NAME(%ARGUMENT_NAMES, &rect_);
return %CONVERTTOPYTHON[QRectF](rect_);
char val_;
%RETURN_TYPE retval_ = %CPPSELF.%FUNCTION_NAME(&val_);
%PYARG_0 = PyTuple_Pack(2, %CONVERTTOPYTHON[%RETURN_TYPE](retval_), %CONVERTTOPYTHON[char](val_));
char _data[%2];
qint64 _size = %CPPSELF.%FUNCTION_NAME(_data, %2);
if (_size > 0)
return %CONVERTTOPYTHON[QByteArray](QByteArray(_data, _size));
else
return %CONVERTTOPYTHON[QByteArray](QByteArray());