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 // qgenericmatrix.sip generated by MetaSIP
//
// This file is part of the QtGui Python extension module.
//
// Copyright (c) 2025 Riverbank Computing Limited <info@riverbankcomputing.com>
//
// This file is part of PyQt6.
//
// This file may be used under the terms of the GNU General Public License
// version 3.0 as published by the Free Software Foundation and appearing in
// the file LICENSE included in the packaging of this file. Please review the
// following information to ensure the GNU General Public License version 3.0
// requirements will be met: http://www.gnu.org/copyleft/gpl.html.
//
// If you do not wish to use this file under the terms of the GPL version 3.0
// then you may purchase a commercial license. For more information contact
// info@riverbankcomputing.com.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
// The implementation of QMatrix4x3.
class QMatrix4x3
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[12];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddddddddd",
(double)data[0], (double)data[1], (double)data[2],
(double)data[3], (double)data[4], (double)data[5],
(double)data[6], (double)data[7], (double)data[8],
(double)data[9], (double)data[10], (double)data[11]);
%End
public:
QMatrix4x3();
QMatrix4x3(const QMatrix4x3 &other);
explicit QMatrix4x3(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[12];
if ((sipError = qtgui_matrixDataFromSequence(a0, 12, values)) == sipErrorNone)
sipCpp = new QMatrix4x3(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[12];
PYQT_FLOAT data[12];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 12; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix4x3("
"%R, %R, %R, "
"%R, %R, %R, "
"%R, %R, %R, "
"%R, %R, %R)",
m[0], m[1], m[2],
m[3], m[4], m[5],
m[6], m[7], m[8],
m[9], m[10], m[11]);
}
for (i = 0; i < 12; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(12, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[12];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(12, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 4, 3, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 4, 3, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix3x4 transposed() const;
QMatrix4x3 &operator+=(const QMatrix4x3 &);
QMatrix4x3 &operator-=(const QMatrix4x3 &);
QMatrix4x3 &operator*=(float);
QMatrix4x3 &operator/=(float);
bool operator==(const QMatrix4x3 &) const;
bool operator!=(const QMatrix4x3 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix4x3 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix4x3 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix4x2.
class QMatrix4x2
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[8];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddddd",
(double)data[0], (double)data[1],
(double)data[2], (double)data[3],
(double)data[4], (double)data[5],
(double)data[6], (double)data[7]);
%End
public:
QMatrix4x2();
QMatrix4x2(const QMatrix4x2 &other);
explicit QMatrix4x2(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[8];
if ((sipError = qtgui_matrixDataFromSequence(a0, 8, values)) == sipErrorNone)
sipCpp = new QMatrix4x2(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[8];
PYQT_FLOAT data[8];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 8; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix4x2("
"%R, %R, "
"%R, %R, "
"%R, %R, "
"%R, %R)",
m[0], m[1],
m[2], m[3],
m[4], m[5],
m[6], m[7]);
}
for (i = 0; i < 8; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(8, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[8];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(8, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 4, 2, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 4, 2, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix2x4 transposed() const;
QMatrix4x2 &operator+=(const QMatrix4x2 &);
QMatrix4x2 &operator-=(const QMatrix4x2 &);
QMatrix4x2 &operator*=(float);
QMatrix4x2 &operator/=(float);
bool operator==(const QMatrix4x2 &) const;
bool operator!=(const QMatrix4x2 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix4x2 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix4x2 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix3x4.
class QMatrix3x4
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[12];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddddddddd",
(double)data[0], (double)data[1], (double)data[2],
(double)data[3], (double)data[4], (double)data[5],
(double)data[6], (double)data[7], (double)data[8],
(double)data[9], (double)data[10], (double)data[11]);
%End
public:
QMatrix3x4();
QMatrix3x4(const QMatrix3x4 &other);
explicit QMatrix3x4(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[12];
if ((sipError = qtgui_matrixDataFromSequence(a0, 12, values)) == sipErrorNone)
sipCpp = new QMatrix3x4(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[12];
PYQT_FLOAT data[12];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 12; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix3x4("
"%R, %R, %R, "
"%R, %R, %R, "
"%R, %R, %R, "
"%R, %R, %R)",
m[0], m[1], m[2],
m[3], m[4], m[5],
m[6], m[7], m[8],
m[9], m[10], m[11]);
}
for (i = 0; i < 12; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(12, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[12];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(12, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 4, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 4, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix4x3 transposed() const;
QMatrix3x4 &operator+=(const QMatrix3x4 &);
QMatrix3x4 &operator-=(const QMatrix3x4 &);
QMatrix3x4 &operator*=(float);
QMatrix3x4 &operator/=(float);
bool operator==(const QMatrix3x4 &) const;
bool operator!=(const QMatrix3x4 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix3x4 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix3x4 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix3x3.
class QMatrix3x3
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[9];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("ddddddddd",
(double)data[0], (double)data[1], (double)data[2],
(double)data[3], (double)data[4], (double)data[5],
(double)data[6], (double)data[7], (double)data[8]);
%End
public:
QMatrix3x3();
QMatrix3x3(const QMatrix3x3 &other);
explicit QMatrix3x3(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[9];
if ((sipError = qtgui_matrixDataFromSequence(a0, 9, values)) == sipErrorNone)
sipCpp = new QMatrix3x3(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[9];
PYQT_FLOAT data[9];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 9; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix3x3("
"%R, %R, %R, "
"%R, %R, %R, "
"%R, %R, %R)",
m[0], m[1], m[2],
m[3], m[4], m[5],
m[6], m[7], m[8]);
}
for (i = 0; i < 9; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(9, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[9];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(9, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 3, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 3, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix3x3 transposed() const;
QMatrix3x3 &operator+=(const QMatrix3x3 &);
QMatrix3x3 &operator-=(const QMatrix3x3 &);
QMatrix3x3 &operator*=(float);
QMatrix3x3 &operator/=(float);
bool operator==(const QMatrix3x3 &) const;
bool operator!=(const QMatrix3x3 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix3x3 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix3x3 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix3x2.
class QMatrix3x2
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[6];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddd",
(double)data[0], (double)data[1],
(double)data[2], (double)data[3],
(double)data[4], (double)data[5]);
%End
public:
QMatrix3x2();
QMatrix3x2(const QMatrix3x2 &other);
explicit QMatrix3x2(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[6];
if ((sipError = qtgui_matrixDataFromSequence(a0, 6, values)) == sipErrorNone)
sipCpp = new QMatrix3x2(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[6];
PYQT_FLOAT data[6];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 6; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix3x2("
"%R, %R, "
"%R, %R, "
"%R, %R)",
m[0], m[1],
m[2], m[3],
m[4], m[5]);
}
for (i = 0; i < 6; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(6, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[6];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(6, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 2, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 3, 2, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix2x3 transposed() const;
QMatrix3x2 &operator+=(const QMatrix3x2 &);
QMatrix3x2 &operator-=(const QMatrix3x2 &);
QMatrix3x2 &operator*=(float);
QMatrix3x2 &operator/=(float);
bool operator==(const QMatrix3x2 &) const;
bool operator!=(const QMatrix3x2 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix3x2 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix3x2 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix2x4.
class QMatrix2x4
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[8];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddddd",
(double)data[0], (double)data[1], (double)data[2], (double)data[3],
(double)data[4], (double)data[5], (double)data[6], (double)data[7]);
%End
public:
QMatrix2x4();
QMatrix2x4(const QMatrix2x4 &other);
explicit QMatrix2x4(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[8];
if ((sipError = qtgui_matrixDataFromSequence(a0, 8, values)) == sipErrorNone)
sipCpp = new QMatrix2x4(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[8];
PYQT_FLOAT data[8];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 8; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix2x4("
"%R, %R, %R, %R, "
"%R, %R, %R, %R)",
m[0], m[1], m[2], m[3],
m[4], m[5], m[6], m[7]);
}
for (i = 0; i < 8; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(8, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[8];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(8, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 4, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 4, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix4x2 transposed() const;
QMatrix2x4 &operator+=(const QMatrix2x4 &);
QMatrix2x4 &operator-=(const QMatrix2x4 &);
QMatrix2x4 &operator*=(float);
QMatrix2x4 &operator/=(float);
bool operator==(const QMatrix2x4 &) const;
bool operator!=(const QMatrix2x4 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix2x4 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix2x4 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix2x3.
class QMatrix2x3
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[6];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddddd",
(double)data[0], (double)data[1], (double)data[2],
(double)data[3], (double)data[4], (double)data[5]);
%End
public:
QMatrix2x3();
QMatrix2x3(const QMatrix2x3 &other);
explicit QMatrix2x3(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[6];
if ((sipError = qtgui_matrixDataFromSequence(a0, 6, values)) == sipErrorNone)
sipCpp = new QMatrix2x3(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[6];
PYQT_FLOAT data[6];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 6; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix2x3("
"%R, %R, %R, "
"%R, %R, %R)",
m[0], m[1], m[2],
m[3], m[4], m[5]);
}
for (i = 0; i < 6; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(6, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[6];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(6, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 3, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 3, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix3x2 transposed() const;
QMatrix2x3 &operator+=(const QMatrix2x3 &);
QMatrix2x3 &operator-=(const QMatrix2x3 &);
QMatrix2x3 &operator*=(float);
QMatrix2x3 &operator/=(float);
bool operator==(const QMatrix2x3 &) const;
bool operator!=(const QMatrix2x3 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix2x3 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix2x3 & /Constrained/) /ReleaseGIL/;
// The implementation of QMatrix2x2.
class QMatrix2x2
{
%TypeHeaderCode
#include <qgenericmatrix.h>
%End
%PickleCode
PYQT_FLOAT data[4];
// We want the data in row-major order.
sipCpp->copyDataTo(data);
sipRes = Py_BuildValue("dddd",
(double)data[0], (double)data[1],
(double)data[2], (double)data[3]);
%End
public:
QMatrix2x2();
QMatrix2x2(const QMatrix2x2 &other);
explicit QMatrix2x2(SIP_PYOBJECT values /TypeHint="Sequence[float]"/);
%MethodCode
PYQT_FLOAT values[4];
if ((sipError = qtgui_matrixDataFromSequence(a0, 4, values)) == sipErrorNone)
sipCpp = new QMatrix2x2(values);
%End
SIP_PYOBJECT __repr__() const /TypeHint="str"/;
%MethodCode
bool bad = false;
int i;
PyObject *m[4];
PYQT_FLOAT data[4];
// The raw data is in column-major order but we want row-major order.
sipCpp->copyDataTo(data);
for (i = 0; i < 4; ++i)
{
m[i] = PyFloat_FromDouble(data[i]);
if (!m[i])
bad = true;
}
if (!bad)
{
sipRes = PyUnicode_FromFormat("PyQt6.QtGui.QMatrix2x2("
"%R, %R, "
"%R, %R)",
m[0], m[1],
m[2], m[3]);
}
for (i = 0; i < 4; ++i)
Py_XDECREF(m[i]);
%End
SIP_PYLIST data() /TypeHint="List[float]"/;
%MethodCode
sipError = qtgui_matrixDataAsList(4, sipCpp->constData(), &sipRes);
%End
SIP_PYLIST copyDataTo() const /TypeHint="List[float]"/;
%MethodCode
PYQT_FLOAT values[4];
sipCpp->copyDataTo(values);
sipError = qtgui_matrixDataAsList(4, values, &sipRes);
%End
SIP_PYOBJECT __getitem__(SIP_PYOBJECT) const;
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 2, &row, &column)) == sipErrorNone)
{
sipRes = PyFloat_FromDouble(sipCpp->operator()(row, column));
if (!sipRes)
sipError = sipErrorFail;
}
%End
void __setitem__(SIP_PYOBJECT, float);
%MethodCode
int row, column;
if ((sipError = qtgui_matrixParseIndex(a0, 2, 2, &row, &column)) == sipErrorNone)
sipCpp->operator()(row, column) = a1;
%End
bool isIdentity() const;
void setToIdentity();
void fill(float value);
QMatrix2x2 transposed() const;
QMatrix2x2 &operator+=(const QMatrix2x2 &);
QMatrix2x2 &operator-=(const QMatrix2x2 &);
QMatrix2x2 &operator*=(float);
QMatrix2x2 &operator/=(float);
bool operator==(const QMatrix2x2 &) const;
bool operator!=(const QMatrix2x2 &) const;
};
QDataStream &operator<<(QDataStream &, const QMatrix2x2 &) /ReleaseGIL/;
QDataStream &operator>>(QDataStream &, QMatrix2x2 & /Constrained/) /ReleaseGIL/;