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|
/****************************************************************************
**
** Copyright (C) 2018 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt for Python.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 3 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL3 included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 3 requirements
** will be met: https://www.gnu.org/licenses/lgpl-3.0.html.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 2.0 or (at your option) the GNU General
** Public license version 3 or any later version approved by the KDE Free
** Qt Foundation. The licenses are as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-2.0.html and
** https://www.gnu.org/licenses/gpl-3.0.html.
**
** $QT_END_LICENSE$
**
****************************************************************************/
/*********************************************************************
* INJECT CODE
********************************************************************/
// @snippet include-pyside
#include <pyside.h>
#include <limits>
// @snippet include-pyside
// @snippet pystring-check
bool py2kStrCheck(PyObject *obj)
{
#ifdef IS_PY3K
return false;
#else
return PyString_Check(obj);
#endif
}
// @snippet pystring-check
// @snippet qsettings-value
// If we enter the kwds, means that we have a defaultValue or
// at least a type.
// This avoids that we are passing '0' as defaultValue.
// defaultValue can also be passed as positional argument,
// not only as keyword.
QVariant out;
if (kwds || numArgs > 1) {
Py_BEGIN_ALLOW_THREADS
out = %CPPSELF.value(%1, %2);
Py_END_ALLOW_THREADS
} else {
Py_BEGIN_ALLOW_THREADS
out = %CPPSELF.value(%1);
Py_END_ALLOW_THREADS
}
PyTypeObject *typeObj = reinterpret_cast<PyTypeObject*>(%PYARG_3);
if (typeObj) {
if (typeObj == &PyList_Type) {
QByteArray out_ba = out.toByteArray();
if (!out_ba.isEmpty()) {
QByteArrayList valuesList = out_ba.split(',');
const int valuesSize = valuesList.size();
if (valuesSize > 0) {
PyObject *list = PyList_New(valuesSize);
for (int i = 0; i < valuesSize; i++) {
PyObject *item = PyUnicode_FromString(valuesList[i].data());
PyList_SET_ITEM(list, i, item);
}
%PYARG_0 = list;
} else {
%PYARG_0 = %CONVERTTOPYTHON[QVariant](out);
}
} else {
%PYARG_0 = PyList_New(0);
}
} else if (typeObj == &PyBytes_Type) {
QByteArray asByteArray = out.toByteArray();
%PYARG_0 = PyBytes_FromString(asByteArray.data());
} else if (typeObj == &PyUnicode_Type) {
QByteArray asByteArray = out.toByteArray();
%PYARG_0 = PyUnicode_FromString(asByteArray.data());
#ifdef IS_PY3K
} else if (typeObj == &PyLong_Type) {
float asFloat = out.toFloat();
pyResult = PyLong_FromDouble(asFloat);
#else
} else if (typeObj == &PyInt_Type) {
float asFloat = out.toFloat();
pyResult = PyInt_FromLong(long(asFloat));
#endif
} else if (typeObj == &PyFloat_Type) {
float asFloat = out.toFloat();
%PYARG_0 = PyFloat_FromDouble(asFloat);
} else if (typeObj == &PyBool_Type) {
if (out.toBool()) {
Py_INCREF(Py_True);
%PYARG_0 = Py_True;
} else {
Py_INCREF(Py_False);
%PYARG_0 = Py_False;
}
}
// TODO: PyDict_Type and PyTuple_Type
}
else {
if (!out.isValid()) {
Py_INCREF(Py_None);
%PYARG_0 = Py_None;
} else {
%PYARG_0 = %CONVERTTOPYTHON[QVariant](out);
}
}
// @snippet qsettings-value
// @snippet qvariant-conversion
static const char *QVariant_resolveMetaType(PyTypeObject *type, int *typeId)
{
if (PyObject_TypeCheck(type, SbkObjectType_TypeF())) {
auto sbkType = reinterpret_cast<SbkObjectType *>(type);
const char *typeName = Shiboken::ObjectType::getOriginalName(sbkType);
if (!typeName)
return nullptr;
const bool valueType = '*' != typeName[qstrlen(typeName) - 1];
// Do not convert user type of value
if (valueType && Shiboken::ObjectType::isUserType(type))
return nullptr;
int obTypeId = QMetaType::type(typeName);
if (obTypeId) {
*typeId = obTypeId;
return typeName;
}
// Do not resolve types to value type
if (valueType)
return nullptr;
// Find in base types. First check tp_bases, and only after check tp_base, because
// tp_base does not always point to the first base class, but rather to the first
// that has added any python fields or slots to its object layout.
// See https://mail.python.org/pipermail/python-list/2009-January/520733.html
if (type->tp_bases) {
for (int i = 0, size = PyTuple_GET_SIZE(type->tp_bases); i < size; ++i) {
const char *derivedName = QVariant_resolveMetaType(reinterpret_cast<PyTypeObject *>(PyTuple_GET_ITEM(
type->tp_bases, i)), typeId);
if (derivedName)
return derivedName;
}
}
else if (type->tp_base) {
return QVariant_resolveMetaType(type->tp_base, typeId);
}
}
*typeId = 0;
return nullptr;
}
static QVariant QVariant_convertToValueList(PyObject *list)
{
if (PySequence_Size(list) < 0) {
// clear the error if < 0 which means no length at all
PyErr_Clear();
return QVariant();
}
Shiboken::AutoDecRef element(PySequence_GetItem(list, 0));
int typeId;
const char *typeName = QVariant_resolveMetaType(element.cast<PyTypeObject *>(), &typeId);
if (typeName) {
QByteArray listTypeName("QList<");
listTypeName += typeName;
listTypeName += '>';
typeId = QMetaType::type(listTypeName);
if (typeId > 0) {
Shiboken::Conversions::SpecificConverter converter(listTypeName);
if (converter) {
QVariant var(typeId, nullptr);
converter.toCpp(list, &var);
return var;
}
qWarning() << "Type converter for :" << listTypeName << "not registered.";
}
}
return QVariant();
}
static bool QVariant_isStringList(PyObject *list)
{
if (!PySequence_Check(list)) {
// If it is not a list or a derived list class
// we assume that will not be a String list neither.
return false;
}
if (PySequence_Size(list) < 0) {
// clear the error if < 0 which means no length at all
PyErr_Clear();
return false;
}
Shiboken::AutoDecRef fast(PySequence_Fast(list, "Failed to convert QVariantList"));
const Py_ssize_t size = PySequence_Fast_GET_SIZE(fast.object());
for (Py_ssize_t i = 0; i < size; ++i) {
PyObject *item = PySequence_Fast_GET_ITEM(fast.object(), i);
if (!%CHECKTYPE[QString](item))
return false;
}
return true;
}
static QVariant QVariant_convertToVariantMap(PyObject *map)
{
Py_ssize_t pos = 0;
Shiboken::AutoDecRef keys(PyDict_Keys(map));
if (!QVariant_isStringList(keys))
return QVariant();
PyObject *key;
PyObject *value;
QMap<QString,QVariant> ret;
while (PyDict_Next(map, &pos, &key, &value)) {
QString cppKey = %CONVERTTOCPP[QString](key);
QVariant cppValue = %CONVERTTOCPP[QVariant](value);
ret.insert(cppKey, cppValue);
}
return QVariant(ret);
}
static QVariant QVariant_convertToVariantList(PyObject *list)
{
if (QVariant_isStringList(list)) {
QList<QString > lst = %CONVERTTOCPP[QList<QString>](list);
return QVariant(QStringList(lst));
}
QVariant valueList = QVariant_convertToValueList(list);
if (valueList.isValid())
return valueList;
if (PySequence_Size(list) < 0) {
// clear the error if < 0 which means no length at all
PyErr_Clear();
return QVariant();
}
QList<QVariant> lst;
Shiboken::AutoDecRef fast(PySequence_Fast(list, "Failed to convert QVariantList"));
const Py_ssize_t size = PySequence_Fast_GET_SIZE(fast.object());
for (Py_ssize_t i = 0; i < size; ++i) {
PyObject *pyItem = PySequence_Fast_GET_ITEM(fast.object(), i);
QVariant item = %CONVERTTOCPP[QVariant](pyItem);
lst.append(item);
}
return QVariant(lst);
}
// @snippet qvariant-conversion
// @snippet qvariantmap-check
static bool QVariantType_isStringList(PyObject *list)
{
Shiboken::AutoDecRef fast(PySequence_Fast(list, "Failed to convert QVariantList"));
const Py_ssize_t size = PySequence_Fast_GET_SIZE(fast.object());
for (Py_ssize_t i=0; i < size; i++) {
PyObject *item = PySequence_Fast_GET_ITEM(fast.object(), i);
if (!%CHECKTYPE[QString](item))
return false;
}
return true;
}
static bool QVariantType_checkAllStringKeys(PyObject *dict)
{
Shiboken::AutoDecRef keys(PyDict_Keys(dict));
return QVariantType_isStringList(keys);
}
// @snippet qvariantmap-check
// @snippet qt-qabs
double _abs = qAbs(%1);
%PYARG_0 = %CONVERTTOPYTHON[double](_abs);
// @snippet qt-qabs
// @snippet qt-postroutine
namespace PySide {
static QStack<PyObject *> globalPostRoutineFunctions;
void globalPostRoutineCallback()
{
Shiboken::GilState state;
for (auto *callback : globalPostRoutineFunctions) {
Shiboken::AutoDecRef result(PyObject_CallObject(callback, nullptr));
Py_DECREF(callback);
}
globalPostRoutineFunctions.clear();
}
void addPostRoutine(PyObject *callback)
{
if (PyCallable_Check(callback)) {
globalPostRoutineFunctions << callback;
Py_INCREF(callback);
} else {
PyErr_SetString(PyExc_TypeError, "qAddPostRoutine: The argument must be a callable object.");
}
}
} // namespace
// @snippet qt-postroutine
// @snippet qt-addpostroutine
PySide::addPostRoutine(%1);
// @snippet qt-addpostroutine
// @snippet qt-qaddpostroutine
qAddPostRoutine(PySide::globalPostRoutineCallback);
// @snippet qt-qaddpostroutine
// @snippet qt-version
QList<QByteArray> version = QByteArray(qVersion()).split('.');
PyObject *pyQtVersion = PyTuple_New(3);
for (int i = 0; i < 3; ++i)
PyTuple_SET_ITEM(pyQtVersion, i, PyInt_FromLong(version[i].toInt()));
PyModule_AddObject(module, "__version_info__", pyQtVersion);
PyModule_AddStringConstant(module, "__version__", qVersion());
// @snippet qt-version
// @snippet qobject-connect
static bool isDecorator(PyObject *method, PyObject *self)
{
Shiboken::AutoDecRef methodName(PyObject_GetAttr(method, Shiboken::PyMagicName::name()));
if (!PyObject_HasAttr(self, methodName))
return true;
Shiboken::AutoDecRef otherMethod(PyObject_GetAttr(self, methodName));
return PyMethod_GET_FUNCTION(otherMethod.object()) != PyMethod_GET_FUNCTION(method);
}
static bool getReceiver(QObject *source, const char *signal, PyObject *callback, QObject **receiver, PyObject **self, QByteArray *callbackSig)
{
bool forceGlobalReceiver = false;
if (PyMethod_Check(callback)) {
*self = PyMethod_GET_SELF(callback);
if (%CHECKTYPE[QObject *](*self))
*receiver = %CONVERTTOCPP[QObject *](*self);
forceGlobalReceiver = isDecorator(callback, *self);
} else if (PyCFunction_Check(callback)) {
*self = PyCFunction_GET_SELF(callback);
if (*self && %CHECKTYPE[QObject *](*self))
*receiver = %CONVERTTOCPP[QObject *](*self);
} else if (PyCallable_Check(callback)) {
// Ok, just a callable object
*receiver = nullptr;
*self = nullptr;
}
bool usingGlobalReceiver = !*receiver || forceGlobalReceiver;
// Check if this callback is a overwrite of a non-virtual Qt slot.
if (!usingGlobalReceiver && receiver && self) {
*callbackSig = PySide::Signal::getCallbackSignature(signal, *receiver, callback, usingGlobalReceiver).toLatin1();
const QMetaObject *metaObject = (*receiver)->metaObject();
int slotIndex = metaObject->indexOfSlot(callbackSig->constData());
if (slotIndex != -1 && slotIndex < metaObject->methodOffset() && PyMethod_Check(callback))
usingGlobalReceiver = true;
}
if (usingGlobalReceiver) {
PySide::SignalManager &signalManager = PySide::SignalManager::instance();
*receiver = signalManager.globalReceiver(source, callback);
*callbackSig = PySide::Signal::getCallbackSignature(signal, *receiver, callback, usingGlobalReceiver).toLatin1();
}
return usingGlobalReceiver;
}
static bool qobjectConnect(QObject *source, const char *signal, QObject *receiver, const char *slot, Qt::ConnectionType type)
{
if (!signal || !slot)
return false;
if (!PySide::Signal::checkQtSignal(signal))
return false;
signal++;
if (!PySide::SignalManager::registerMetaMethod(source, signal, QMetaMethod::Signal))
return false;
bool isSignal = PySide::Signal::isQtSignal(slot);
slot++;
PySide::SignalManager::registerMetaMethod(receiver, slot, isSignal ? QMetaMethod::Signal : QMetaMethod::Slot);
bool connection;
connection = QObject::connect(source, signal - 1, receiver, slot - 1, type);
return connection;
}
static bool qobjectConnect(QObject *source, QMetaMethod signal, QObject *receiver, QMetaMethod slot, Qt::ConnectionType type)
{
return qobjectConnect(source, signal.methodSignature(), receiver, slot.methodSignature(), type);
}
static bool qobjectConnectCallback(QObject *source, const char *signal, PyObject *callback, Qt::ConnectionType type)
{
if (!signal || !PySide::Signal::checkQtSignal(signal))
return false;
signal++;
int signalIndex = PySide::SignalManager::registerMetaMethodGetIndex(source, signal, QMetaMethod::Signal);
if (signalIndex == -1)
return false;
PySide::SignalManager &signalManager = PySide::SignalManager::instance();
// Extract receiver from callback
QObject *receiver = nullptr;
PyObject *self = nullptr;
QByteArray callbackSig;
bool usingGlobalReceiver = getReceiver(source, signal, callback, &receiver, &self, &callbackSig);
if (receiver == nullptr && self == nullptr)
return false;
const QMetaObject *metaObject = receiver->metaObject();
const char *slot = callbackSig.constData();
int slotIndex = metaObject->indexOfSlot(slot);
QMetaMethod signalMethod = metaObject->method(signalIndex);
if (slotIndex == -1) {
if (!usingGlobalReceiver && self && !Shiboken::Object::hasCppWrapper(reinterpret_cast<SbkObject *>(self))) {
qWarning("You can't add dynamic slots on an object originated from C++.");
if (usingGlobalReceiver)
signalManager.releaseGlobalReceiver(source, receiver);
return false;
}
if (usingGlobalReceiver)
slotIndex = signalManager.globalReceiverSlotIndex(receiver, slot);
else
slotIndex = PySide::SignalManager::registerMetaMethodGetIndex(receiver, slot, QMetaMethod::Slot);
if (slotIndex == -1) {
if (usingGlobalReceiver)
signalManager.releaseGlobalReceiver(source, receiver);
return false;
}
}
bool connection;
connection = QMetaObject::connect(source, signalIndex, receiver, slotIndex, type);
if (connection) {
if (usingGlobalReceiver)
signalManager.notifyGlobalReceiver(receiver);
#ifndef AVOID_PROTECTED_HACK
source->connectNotify(signalMethod); //Qt5: QMetaMethod instead of char *
#else
// Need to cast to QObjectWrapper * and call the public version of
// connectNotify when avoiding the protected hack.
reinterpret_cast<QObjectWrapper *>(source)->connectNotify(signalMethod); //Qt5: QMetaMethod instead of char *
#endif
return connection;
}
if (usingGlobalReceiver)
signalManager.releaseGlobalReceiver(source, receiver);
return false;
}
static bool qobjectDisconnectCallback(QObject *source, const char *signal, PyObject *callback)
{
if (!PySide::Signal::checkQtSignal(signal))
return false;
PySide::SignalManager &signalManager = PySide::SignalManager::instance();
// Extract receiver from callback
QObject *receiver = nullptr;
PyObject *self = nullptr;
QByteArray callbackSig;
QMetaMethod slotMethod;
bool usingGlobalReceiver = getReceiver(nullptr, signal, callback, &receiver, &self, &callbackSig);
if (receiver == nullptr && self == nullptr)
return false;
const QMetaObject *metaObject = receiver->metaObject();
int signalIndex = source->metaObject()->indexOfSignal(++signal);
int slotIndex = -1;
slotIndex = metaObject->indexOfSlot(callbackSig);
slotMethod = metaObject->method(slotIndex);
bool disconnected;
disconnected = QMetaObject::disconnectOne(source, signalIndex, receiver, slotIndex);
if (disconnected) {
if (usingGlobalReceiver)
signalManager.releaseGlobalReceiver(source, receiver);
#ifndef AVOID_PROTECTED_HACK
source->disconnectNotify(slotMethod); //Qt5: QMetaMethod instead of char *
#else
// Need to cast to QObjectWrapper * and call the public version of
// connectNotify when avoiding the protected hack.
reinterpret_cast<QObjectWrapper *>(source)->disconnectNotify(slotMethod); //Qt5: QMetaMethod instead of char *
#endif
return true;
}
return false;
}
// @snippet qobject-connect
// @snippet qobject-connect-1
// %FUNCTION_NAME() - disable generation of function call.
bool %0 = qobjectConnect(%1, %2, %CPPSELF, %3, %4);
%PYARG_0 = %CONVERTTOPYTHON[bool](%0);
// @snippet qobject-connect-1
// @snippet qobject-connect-2
// %FUNCTION_NAME() - disable generation of function call.
bool %0 = qobjectConnect(%1, %2, %3, %4, %5);
%PYARG_0 = %CONVERTTOPYTHON[bool](%0);
// @snippet qobject-connect-2
// @snippet qobject-connect-3
// %FUNCTION_NAME() - disable generation of function call.
bool %0 = qobjectConnect(%1, %2, %3, %4, %5);
%PYARG_0 = %CONVERTTOPYTHON[bool](%0);
// @snippet qobject-connect-3
// @snippet qobject-connect-4
// %FUNCTION_NAME() - disable generation of function call.
%RETURN_TYPE %0 = qobjectConnectCallback(%1, %2, %PYARG_3, %4);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-connect-4
// @snippet qobject-connect-5
// %FUNCTION_NAME() - disable generation of function call.
%RETURN_TYPE %0 = qobjectConnectCallback(%CPPSELF, %1, %PYARG_2, %3);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-connect-5
// @snippet qobject-connect-6
// %FUNCTION_NAME() - disable generation of function call.
%RETURN_TYPE %0 = qobjectConnect(%CPPSELF, %1, %2, %3, %4);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-connect-6
// @snippet qobject-emit
%RETURN_TYPE %0 = PySide::SignalManager::instance().emitSignal(%CPPSELF, %1, %PYARG_2);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-emit
// @snippet qobject-disconnect-1
// %FUNCTION_NAME() - disable generation of function call.
%RETURN_TYPE %0 = qobjectDisconnectCallback(%CPPSELF, %1, %2);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-disconnect-1
// @snippet qobject-disconnect-2
// %FUNCTION_NAME() - disable generation of function call.
%RETURN_TYPE %0 = qobjectDisconnectCallback(%1, %2, %3);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-disconnect-2
// @snippet qfatal
// qFatal doesn't have a stream version, so we do a
// qWarning call followed by a qFatal() call using a
// literal.
Py_BEGIN_ALLOW_THREADS
qWarning() << %1;
qFatal("[A qFatal() call was made from Python code]");
Py_END_ALLOW_THREADS
// @snippet qfatal
// @snippet moduleshutdown
PySide::runCleanupFunctions();
// @snippet moduleshutdown
// @snippet qt-qenum
%PYARG_0 = PySide::QEnum::QEnumMacro(%1, false);
// @snippet qt-qenum
// @snippet qt-qflag
%PYARG_0 = PySide::QEnum::QEnumMacro(%1, true);
// @snippet qt-qflag
// @snippet qt-pysideinit
Shiboken::Conversions::registerConverterName(SbkPySide2_QtCoreTypeConverters[SBK_QSTRING_IDX], "unicode");
Shiboken::Conversions::registerConverterName(SbkPySide2_QtCoreTypeConverters[SBK_QSTRING_IDX], "str");
Shiboken::Conversions::registerConverterName(SbkPySide2_QtCoreTypeConverters[SBK_QTCORE_QLIST_QVARIANT_IDX], "QVariantList");
Shiboken::Conversions::registerConverterName(SbkPySide2_QtCoreTypeConverters[SBK_QTCORE_QMAP_QSTRING_QVARIANT_IDX], "QVariantMap");
PySide::registerInternalQtConf();
PySide::init(module);
Py_AtExit(QtCoreModuleExit);
// @snippet qt-pysideinit
// @snippet qt-messagehandler
// Define a global variable to handle qInstallMessageHandler callback
static PyObject *qtmsghandler = nullptr;
static void msgHandlerCallback(QtMsgType type, const QMessageLogContext &ctx, const QString &msg)
{
Shiboken::GilState state;
Shiboken::AutoDecRef arglist(PyTuple_New(3));
PyTuple_SET_ITEM(arglist, 0, %CONVERTTOPYTHON[QtMsgType](type));
PyTuple_SET_ITEM(arglist, 1, %CONVERTTOPYTHON[QMessageLogContext &](ctx));
QByteArray array = msg.toUtf8(); // Python handler requires UTF-8
char *data = array.data();
PyTuple_SET_ITEM(arglist, 2, %CONVERTTOPYTHON[char *](data));
Shiboken::AutoDecRef ret(PyObject_CallObject(qtmsghandler, arglist));
}
static void QtCoreModuleExit()
{
PySide::SignalManager::instance().clear();
}
// @snippet qt-messagehandler
// @snippet qt-installmessagehandler
if (%PYARG_1 == Py_None) {
qInstallMessageHandler(0);
%PYARG_0 = qtmsghandler ? qtmsghandler : Py_None;
qtmsghandler = 0;
} else if (!PyCallable_Check(%PYARG_1)) {
PyErr_SetString(PyExc_TypeError, "parameter must be callable");
} else {
%PYARG_0 = qtmsghandler ? qtmsghandler : Py_None;
Py_INCREF(%PYARG_1);
qtmsghandler = %PYARG_1;
qInstallMessageHandler(msgHandlerCallback);
}
if (%PYARG_0 == Py_None)
Py_INCREF(%PYARG_0);
// @snippet qt-installmessagehandler
// @snippet qline-hash
namespace PySide {
template<> inline Py_ssize_t hash(const QLine &l)
{
const int v[4] = {l.x1(), l.y1(), l.x2(), l.y2()};
return qHashRange(v, v + 4);
}
};
// @snippet qline-hash
// @snippet qlinef-intersect
QPointF p;
%RETURN_TYPE retval = %CPPSELF.%FUNCTION_NAME(%ARGUMENT_NAMES, &p);
%PYARG_0 = PyTuple_New(2);
PyTuple_SET_ITEM(%PYARG_0, 0, %CONVERTTOPYTHON[%RETURN_TYPE](retval));
PyTuple_SET_ITEM(%PYARG_0, 1, %CONVERTTOPYTHON[QPointF](p));
// @snippet qlinef-intersect
// @snippet qresource-data
const void *d = %CPPSELF.%FUNCTION_NAME();
if (d) {
%PYARG_0 = Shiboken::Buffer::newObject(d, %CPPSELF.size());
} else {
Py_INCREF(Py_None);
%PYARG_0 = Py_None;
}
// @snippet qresource-data
// @snippet qdate-topython
if (!PyDateTimeAPI)
PySideDateTime_IMPORT;
%PYARG_0 = PyDate_FromDate(%CPPSELF.year(), %CPPSELF.month(), %CPPSELF.day());
// @snippet qdate-topython
// @snippet qdate-getdate
int year, month, day;
%CPPSELF.%FUNCTION_NAME(&year, &month, &day);
%PYARG_0 = PyTuple_New(3);
PyTuple_SET_ITEM(%PYARG_0, 0, %CONVERTTOPYTHON[int](year));
PyTuple_SET_ITEM(%PYARG_0, 1, %CONVERTTOPYTHON[int](month));
PyTuple_SET_ITEM(%PYARG_0, 2, %CONVERTTOPYTHON[int](day));
// @snippet qdate-getdate
// @snippet qdate-weeknumber
int yearNumber;
int week = %CPPSELF.%FUNCTION_NAME(&yearNumber);
%PYARG_0 = PyTuple_New(2);
PyTuple_SET_ITEM(%PYARG_0, 0, %CONVERTTOPYTHON[int](week));
PyTuple_SET_ITEM(%PYARG_0, 1, %CONVERTTOPYTHON[int](yearNumber));
// @snippet qdate-weeknumber
// @snippet qdatetime-1
QDate date(%1, %2, %3);
QTime time(%4, %5, %6, %7);
%0 = new %TYPE(date, time, Qt::TimeSpec(%8));
// @snippet qdatetime-1
// @snippet qdatetime-2
QDate date(%1, %2, %3);
QTime time(%4, %5, %6);
%0 = new %TYPE(date, time);
// @snippet qdatetime-2
// @snippet qdatetime-topython
QDate date = %CPPSELF.date();
QTime time = %CPPSELF.time();
if (!PyDateTimeAPI) PySideDateTime_IMPORT;
%PYARG_0 = PyDateTime_FromDateAndTime(date.year(), date.month(), date.day(), time.hour(), time.minute(), time.second(), time.msec()*1000);
// @snippet qdatetime-topython
// @snippet qpoint
namespace PySide {
template<> inline Py_ssize_t hash(const QPoint &v) {
return qHash(qMakePair(v.x(), v.y()));
}
};
// @snippet qpoint
// @snippet qrect
namespace PySide {
template<> inline Py_ssize_t hash(const QRect &r) {
const int v[4] = {r.x(), r.y(), r.width(), r.height()};
return qHashRange(v, v + 4);
}
};
// @snippet qrect
// @snippet qsize
namespace PySide {
template<> inline Py_ssize_t hash(const QSize &v) {
return qHash(qMakePair(v.width(), v.height()));
}
};
// @snippet qsize
// @snippet qtime-topython
if (!PyDateTimeAPI)
PySideDateTime_IMPORT;
%PYARG_0 = PyTime_FromTime(%CPPSELF.hour(), %CPPSELF.minute(), %CPPSELF.second(), %CPPSELF.msec()*1000);
// @snippet qtime-topython
// @snippet qbitarray-len
return %CPPSELF.size();
// @snippet qbitarray-len
// @snippet qbitarray-getitem
if (_i < 0 || _i >= %CPPSELF.size()) {
PyErr_SetString(PyExc_IndexError, "index out of bounds");
return 0;
}
bool ret = %CPPSELF.at(_i);
return %CONVERTTOPYTHON[bool](ret);
// @snippet qbitarray-getitem
// @snippet qbitarray-setitem
PyObject *args = Py_BuildValue("(iiO)", _i, 1, _value);
PyObject *result = Sbk_QBitArrayFunc_setBit(self, args);
Py_DECREF(args);
Py_XDECREF(result);
return !result ? -1 : 0;
// @snippet qbitarray-setitem
// @snippet unlock
%CPPSELF.unlock();
// @snippet unlock
// @snippet qabstractitemmodel-createindex
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME(%1, %2, %PYARG_3);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qabstractitemmodel-createindex
// @snippet qabstractitemmodel
qRegisterMetaType<QVector<int> >("QVector<int>");
// @snippet qabstractitemmodel
// @snippet qobject-metaobject
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME();
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qobject-metaobject
// @snippet qobject-findchild-1
static QObject *_findChildHelper(const QObject *parent, const QString &name, PyTypeObject *desiredType)
{
for (auto *child : parent->children()) {
Shiboken::AutoDecRef pyChild(%CONVERTTOPYTHON[QObject *](child));
if (PyType_IsSubtype(Py_TYPE(pyChild), desiredType)
&& (name.isNull() || name == child->objectName())) {
return child;
}
}
for (auto *child : parent->children()) {
QObject *obj = _findChildHelper(child, name, desiredType);
if (obj)
return obj;
}
return nullptr;
}
static inline bool _findChildrenComparator(const QObject *&child, const QRegularExpression &name)
{
return name.match(child->objectName()).hasMatch();
}
static inline bool _findChildrenComparator(const QObject *&child, const QString &name)
{
return name.isNull() || name == child->objectName();
}
template<typename T>
static void _findChildrenHelper(const QObject *parent, const T& name, PyTypeObject *desiredType, PyObject *result)
{
for (const auto *child : parent->children()) {
Shiboken::AutoDecRef pyChild(%CONVERTTOPYTHON[QObject *](child));
if (PyType_IsSubtype(Py_TYPE(pyChild), desiredType) && _findChildrenComparator(child, name))
PyList_Append(result, pyChild);
_findChildrenHelper(child, name, desiredType, result);
}
}
// @snippet qobject-findchild-1
// @snippet qobject-findchild-2
QObject *child = _findChildHelper(%CPPSELF, %2, reinterpret_cast<PyTypeObject *>(%PYARG_1));
%PYARG_0 = %CONVERTTOPYTHON[QObject *](child);
// @snippet qobject-findchild-2
// @snippet qobject-findchildren
%PYARG_0 = PyList_New(0);
_findChildrenHelper(%CPPSELF, %2, reinterpret_cast<PyTypeObject *>(%PYARG_1), %PYARG_0);
// @snippet qobject-findchildren
// @snippet qobject-tr
QString result;
if (QCoreApplication::instance()) {
PyObject *klass = PyObject_GetAttr(%PYSELF, Shiboken::PyMagicName::class_());
PyObject *cname = PyObject_GetAttr(klass, Shiboken::PyMagicName::name());
result = QString(QCoreApplication::instance()->translate(Shiboken::String::toCString(cname),
/* %1, %2, QCoreApplication::CodecForTr, %3)); */
%1, %2, %3));
Py_DECREF(klass);
Py_DECREF(cname);
} else {
result = QString(QString::fromLatin1(%1));
}
%PYARG_0 = %CONVERTTOPYTHON[QString](result);
// @snippet qobject-tr
// @snippet qobject-receivers
// Avoid return +1 because SignalManager connect to "destroyed()" signal to control object timelife
int ret = %CPPSELF.%FUNCTION_NAME(%1);
if (ret > 0 && ((strcmp(%1, SIGNAL(destroyed())) == 0) || (strcmp(%1, SIGNAL(destroyed(QObject*))) == 0)))
ret -= PySide::SignalManager::instance().countConnectionsWith(%CPPSELF);
%PYARG_0 = %CONVERTTOPYTHON[int](ret);
// @snippet qobject-receivers
// @snippet qregexp-replace
%1.replace(*%CPPSELF, %2);
%PYARG_0 = %CONVERTTOPYTHON[QString](%1);
// @snippet qregexp-replace
// @snippet qbytearray-mgetitem
if (PyIndex_Check(_key)) {
Py_ssize_t _i;
_i = PyNumber_AsSsize_t(_key, PyExc_IndexError);
if (_i < 0 || _i >= %CPPSELF.size()) {
PyErr_SetString(PyExc_IndexError, "index out of bounds");
return 0;
} else {
char res[2];
res[0] = %CPPSELF.at(_i);
res[1] = 0;
return PyBytes_FromStringAndSize(res, 1);
}
} else if (PySlice_Check(_key)) {
Py_ssize_t start, stop, step, slicelength, cur;
#ifdef IS_PY3K
PyObject *key = _key;
#else
PySliceObject *key = reinterpret_cast<PySliceObject *>(_key);
#endif
if (PySlice_GetIndicesEx(key, %CPPSELF.count(), &start, &stop, &step, &slicelength) < 0) {
return nullptr;
}
QByteArray ba;
if (slicelength <= 0) {
return %CONVERTTOPYTHON[QByteArray](ba);
} else if (step == 1) {
Py_ssize_t max = %CPPSELF.count();
start = qBound(Py_ssize_t(0), start, max);
stop = qBound(Py_ssize_t(0), stop, max);
QByteArray ba;
if (start < stop)
ba = %CPPSELF.mid(start, stop - start);
return %CONVERTTOPYTHON[QByteArray](ba);
} else {
QByteArray ba;
for (cur = start; slicelength > 0; cur += static_cast<size_t>(step), slicelength--) {
ba.append(%CPPSELF.at(cur));
}
return %CONVERTTOPYTHON[QByteArray](ba);
}
} else {
PyErr_Format(PyExc_TypeError,
"list indices must be integers or slices, not %.200s",
Py_TYPE(_key)->tp_name);
return nullptr;
}
// @snippet qbytearray-mgetitem
// @snippet qbytearray-msetitem
if (PyIndex_Check(_key)) {
Py_ssize_t _i = PyNumber_AsSsize_t(_key, PyExc_IndexError);
if (_i == -1 && PyErr_Occurred())
return -1;
if (_i < 0)
_i += %CPPSELF.count();
if (_i < 0 || _i >= %CPPSELF.size()) {
PyErr_SetString(PyExc_IndexError, "QByteArray index out of range");
return -1;
}
// Provide more specific error message for bytes/str, bytearray, QByteArray respectively
#ifdef IS_PY3K
if (PyBytes_Check(_value)) {
if (Py_SIZE(_value) != 1) {
PyErr_SetString(PyExc_ValueError, "bytes must be of size 1");
#else
if (PyString_CheckExact(_value)) {
if (Py_SIZE(_value) != 1) {
PyErr_SetString(PyExc_ValueError, "str must be of size 1");
#endif
return -1;
}
} else if (PyByteArray_Check(_value)) {
if (Py_SIZE(_value) != 1) {
PyErr_SetString(PyExc_ValueError, "bytearray must be of size 1");
return -1;
}
} else if (reinterpret_cast<PyTypeObject *>(Py_TYPE(_value)) == reinterpret_cast<PyTypeObject *>(SbkPySide2_QtCoreTypes[SBK_QBYTEARRAY_IDX])) {
if (PyObject_Length(_value) != 1) {
PyErr_SetString(PyExc_ValueError, "QByteArray must be of size 1");
return -1;
}
} else {
#ifdef IS_PY3K
PyErr_SetString(PyExc_ValueError, "a bytes, bytearray, QByteArray of size 1 is required");
#else
PyErr_SetString(PyExc_ValueError, "a str, bytearray, QByteArray of size 1 is required");
#endif
return -1;
}
// Not support int or long.
%CPPSELF.remove(_i, 1);
PyObject *args = Py_BuildValue("(nO)", _i, _value);
PyObject *result = Sbk_QByteArrayFunc_insert(self, args);
Py_DECREF(args);
Py_XDECREF(result);
return !result ? -1 : 0;
} else if (PySlice_Check(_key)) {
Py_ssize_t start, stop, step, slicelength, value_length;
#ifdef IS_PY3K
PyObject *key = _key;
#else
PySliceObject *key = reinterpret_cast<PySliceObject *>(_key);
#endif
if (PySlice_GetIndicesEx(key, %CPPSELF.count(), &start, &stop, &step, &slicelength) < 0) {
return -1;
}
// The parameter candidates are: bytes/str, bytearray, QByteArray itself.
// Not support iterable which contains ints between 0~255
// case 1: value is nullpre, means delete the items within the range
// case 2: step is 1, means shrink or expanse
// case 3: step is not 1, then the number of slots have to equal the number of items in _value
QByteArray ba;
if (_value == nullptr || _value == Py_None) {
ba = QByteArray();
value_length = 0;
} else if (!(PyBytes_Check(_value) || PyByteArray_Check(_value) || reinterpret_cast<PyTypeObject *>(Py_TYPE(_value)) == reinterpret_cast<PyTypeObject *>(SbkPySide2_QtCoreTypes[SBK_QBYTEARRAY_IDX]))) {
PyErr_Format(PyExc_TypeError, "bytes, bytearray or QByteArray is required, not %.200s", Py_TYPE(_value)->tp_name);
return -1;
} else {
value_length = PyObject_Length(_value);
}
if (step != 1 && value_length != slicelength) {
PyErr_Format(PyExc_ValueError, "attempt to assign %s of size %d to extended slice of size %d",
Py_TYPE(_value)->tp_name, int(value_length), int(slicelength));
return -1;
}
if (step != 1) {
int i = start;
for (int j = 0; j < slicelength; j++) {
PyObject *item = PyObject_GetItem(_value, PyLong_FromLong(j));
QByteArray temp;
#ifdef IS_PY3K
if (PyLong_Check(item)) {
#else
if (PyLong_Check(item) || PyInt_Check(item)) {
#endif
int overflow;
long ival = PyLong_AsLongAndOverflow(item, &overflow);
// Not suppose to bigger than 255 because only bytes, bytearray, QByteArray were accept
temp = QByteArray(reinterpret_cast<const char *>(&ival));
} else {
temp = %CONVERTTOCPP[QByteArray](item);
}
%CPPSELF.replace(i, 1, temp);
i += step;
}
return 0;
} else {
ba = %CONVERTTOCPP[QByteArray](_value);
%CPPSELF.replace(start, slicelength, ba);
return 0;
}
} else {
PyErr_Format(PyExc_TypeError, "QBytearray indices must be integers or slices, not %.200s",
Py_TYPE(_key)->tp_name);
return -1;
}
// @snippet qbytearray-msetitem
// @snippet qbytearray-bufferprotocol
extern "C" {
// QByteArray buffer protocol functions
// see: http://www.python.org/dev/peps/pep-3118/
static int SbkQByteArray_getbufferproc(PyObject *obj, Py_buffer *view, int flags)
{
if (!view || !Shiboken::Object::isValid(obj))
return -1;
QByteArray * cppSelf = %CONVERTTOCPP[QByteArray *](obj);
//XXX /|\ omitting this space crashes shiboken!
#ifdef Py_LIMITED_API
view->obj = obj;
view->buf = reinterpret_cast<void *>(cppSelf->data());
view->len = cppSelf->size();
view->readonly = 0;
view->itemsize = 1;
view->format = const_cast<char *>("c");
view->ndim = 1;
view->shape = (flags & PyBUF_ND) == PyBUF_ND ? &(view->len) : nullptr;
view->strides = &view->itemsize;
view->suboffsets = NULL;
view->internal = NULL;
Py_XINCREF(obj);
return 0;
#else // Py_LIMITED_API
const int result = PyBuffer_FillInfo(view, obj, reinterpret_cast<void *>(cppSelf->data()),
cppSelf->size(), 0, flags);
if (result == 0)
Py_XINCREF(obj);
return result;
#endif
}
#if PY_VERSION_HEX < 0x03000000
static Py_ssize_t SbkQByteArray_segcountproc(PyObject *self, Py_ssize_t *lenp)
{
if (lenp)
*lenp = Py_TYPE(self)->tp_as_sequence->sq_length(self);
return 1;
}
static Py_ssize_t SbkQByteArray_readbufferproc(PyObject *self, Py_ssize_t segment, void **ptrptr)
{
if (segment || !Shiboken::Object::isValid(self))
return -1;
QByteArray * cppSelf = %CONVERTTOCPP[QByteArray *](self);
//XXX /|\ omitting this space crashes shiboken!
*ptrptr = reinterpret_cast<void *>(cppSelf->data());
return cppSelf->size();
}
PyBufferProcs SbkQByteArrayBufferProc = {
/*bf_getreadbuffer*/ &SbkQByteArray_readbufferproc,
/*bf_getwritebuffer*/ (writebufferproc) &SbkQByteArray_readbufferproc,
/*bf_getsegcount*/ &SbkQByteArray_segcountproc,
/*bf_getcharbuffer*/ (charbufferproc) &SbkQByteArray_readbufferproc,
/*bf_getbuffer*/ (getbufferproc)SbkQByteArray_getbufferproc,
};
#else
static PyBufferProcs SbkQByteArrayBufferProc = {
/*bf_getbuffer*/ (getbufferproc)SbkQByteArray_getbufferproc,
/*bf_releasebuffer*/ (releasebufferproc)0,
};
#endif
}
// @snippet qbytearray-bufferprotocol
// @snippet qbytearray-operatorplus-1
QByteArray ba = QByteArray(PyBytes_AS_STRING(%PYARG_1), PyBytes_GET_SIZE(%PYARG_1)) + *%CPPSELF;
%PYARG_0 = %CONVERTTOPYTHON[QByteArray](ba);
// @snippet qbytearray-operatorplus-1
// @snippet qbytearray-operatorplus-2
QByteArray ba = QByteArray(PyByteArray_AsString(%PYARG_1), PyByteArray_Size(%PYARG_1)) + *%CPPSELF;
%PYARG_0 = %CONVERTTOPYTHON[QByteArray](ba);
// @snippet qbytearray-operatorplus-2
// @snippet qbytearray-operatorplus-3
QByteArray ba = *%CPPSELF + QByteArray(PyByteArray_AsString(%PYARG_1), PyByteArray_Size(%PYARG_1));
%PYARG_0 = %CONVERTTOPYTHON[QByteArray](ba);
// @snippet qbytearray-operatorplus-3
// @snippet qbytearray-operatorplusequal
*%CPPSELF += QByteArray(PyByteArray_AsString(%PYARG_1), PyByteArray_Size(%PYARG_1));
// @snippet qbytearray-operatorplusequal
// @snippet qbytearray-operatorequalequal
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF == ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatorequalequal
// @snippet qbytearray-operatornotequal
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF != ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatornotequal
// @snippet qbytearray-operatorgreater
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF > ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatorgreater
// @snippet qbytearray-operatorgreaterequal
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF >= ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatorgreaterequal
// @snippet qbytearray-operatorlower
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF < ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatorlower
// @snippet qbytearray-operatorlowerequal
if (PyUnicode_CheckExact(%PYARG_1)) {
Shiboken::AutoDecRef data(PyUnicode_AsASCIIString(%PYARG_1));
QByteArray ba = QByteArray(PyBytes_AsString(data.object()), PyBytes_GET_SIZE(data.object()));
bool cppResult = %CPPSELF <= ba;
%PYARG_0 = %CONVERTTOPYTHON[bool](cppResult);
}
// @snippet qbytearray-operatorlowerequal
// @snippet qbytearray-repr
PyObject *aux = PyBytes_FromStringAndSize(%CPPSELF.constData(), %CPPSELF.size());
if (aux == nullptr) {
return nullptr;
}
QByteArray b(Py_TYPE(%PYSELF)->tp_name);
#ifdef IS_PY3K
%PYARG_0 = PyUnicode_FromFormat("%s(%R)", b.constData(), aux);
#else
aux = PyObject_Repr(aux);
b += '(';
b += QByteArray(PyBytes_AS_STRING(aux), PyBytes_GET_SIZE(aux));
b += ')';
%PYARG_0 = Shiboken::String::fromStringAndSize(b.constData(), b.size());
#endif
Py_DECREF(aux);
// @snippet qbytearray-repr
// @snippet qbytearray-1
if (PyBytes_Check(%PYARG_1)) {
%0 = new QByteArray(PyBytes_AsString(%PYARG_1), PyBytes_GET_SIZE(%PYARG_1));
} else if (Shiboken::String::check(%PYARG_1)) {
%0 = new QByteArray(Shiboken::String::toCString(%PYARG_1), Shiboken::String::len(%PYARG_1));
}
// @snippet qbytearray-1
// @snippet qbytearray-2
%0 = new QByteArray(PyByteArray_AsString(%PYARG_1), PyByteArray_Size(%PYARG_1));
// @snippet qbytearray-2
// @snippet qbytearray-3
%0 = new QByteArray(PyBytes_AS_STRING(%PYARG_1), PyBytes_GET_SIZE(%PYARG_1));
// @snippet qbytearray-3
// @snippet qbytearray-py3
#if PY_VERSION_HEX < 0x03000000
Shiboken::SbkType<QByteArray>()->tp_as_buffer = &SbkQByteArrayBufferProc;
Shiboken::SbkType<QByteArray>()->tp_flags |= Py_TPFLAGS_HAVE_NEWBUFFER;
#else
PepType_AS_BUFFER(Shiboken::SbkType<QByteArray>()) = &SbkQByteArrayBufferProc;
#endif
// @snippet qbytearray-py3
// @snippet qbytearray-data
%PYARG_0 = PyBytes_FromStringAndSize(%CPPSELF.%FUNCTION_NAME(), %CPPSELF.size());
// @snippet qbytearray-data
// @snippet qbytearray-fromrawdata
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME(PyBytes_AsString(%PYARG_1), PyBytes_GET_SIZE(%PYARG_1));
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qbytearray-fromrawdata
// @snippet qbytearray-str
PyObject *aux = PyBytes_FromStringAndSize(%CPPSELF.constData(), %CPPSELF.size());
if (aux == nullptr) {
return nullptr;
}
#ifdef IS_PY3K
%PYARG_0 = PyObject_Repr(aux);
Py_DECREF(aux);
#else
%PYARG_0 = aux;
#endif
// @snippet qbytearray-str
// @snippet qbytearray-len
return %CPPSELF.count();
// @snippet qbytearray-len
// @snippet qbytearray-getitem
if (_i < 0 || _i >= %CPPSELF.size()) {
PyErr_SetString(PyExc_IndexError, "index out of bounds");
return 0;
} else {
char res[2];
res[0] = %CPPSELF.at(_i);
res[1] = 0;
return PyBytes_FromStringAndSize(res, 1);
}
// @snippet qbytearray-getitem
// @snippet qbytearray-setitem
%CPPSELF.remove(_i, 1);
PyObject *args = Py_BuildValue("(nO)", _i, _value);
PyObject *result = Sbk_QByteArrayFunc_insert(self, args);
Py_DECREF(args);
Py_XDECREF(result);
return !result ? -1 : 0;
// @snippet qbytearray-setitem
// @snippet qfiledevice-unmap
uchar *ptr = reinterpret_cast<uchar *>(Shiboken::Buffer::getPointer(%PYARG_1));
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME(ptr);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qfiledevice-unmap
// @snippet qfiledevice-map
%PYARG_0 = Shiboken::Buffer::newObject(%CPPSELF.%FUNCTION_NAME(%1, %2, %3), %2, Shiboken::Buffer::ReadWrite);
// @snippet qfiledevice-map
// @snippet qiodevice-readdata
QByteArray ba(1 + int(%2), char(0));
%CPPSELF.%FUNCTION_NAME(ba.data(), int(%2));
%PYARG_0 = Shiboken::String::fromCString(ba.constData());
// @snippet qiodevice-readdata
// @snippet qcryptographichash-adddata
%CPPSELF.%FUNCTION_NAME(Shiboken::String::toCString(%PYARG_1), Shiboken::String::len(%PYARG_1));
// @snippet qcryptographichash-adddata
// @snippet qsocketdescriptor
#ifdef WIN32
using DescriptorType = Qt::HANDLE;
#else
using DescriptorType = int;
#endif
// @snippet qsocketdescriptor
// @snippet qsocketnotifier
PyObject *socket = %PYARG_1;
if (socket != nullptr) {
// We use qintptr as PyLong, but we check for int
// since it is currently an alias to be Python2 compatible.
// Internally, ints are qlonglongs.
if (%CHECKTYPE[int](socket)) {
int cppSocket = %CONVERTTOCPP[int](socket);
qintptr socket = (qintptr)cppSocket;
%0 = new %TYPE(socket, %2, %3);
} else {
PyErr_SetString(PyExc_TypeError,
"QSocketNotifier: first argument (socket) must be an int.");
}
}
// @snippet qsocketnotifier
// @snippet qtranslator-load
Py_ssize_t size;
uchar *ptr = reinterpret_cast<uchar *>(Shiboken::Buffer::getPointer(%PYARG_1, &size));
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME(const_cast<const uchar *>(ptr), size);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qtranslator-load
// @snippet qtimer-singleshot-1
// %FUNCTION_NAME() - disable generation of c++ function call
(void) %2; // remove warning about unused variable
Shiboken::AutoDecRef emptyTuple(PyTuple_New(0));
PyObject *pyTimer = reinterpret_cast<PyTypeObject *>(Shiboken::SbkType<QTimer>())->tp_new(Shiboken::SbkType<QTimer>(), emptyTuple, 0);
reinterpret_cast<PyTypeObject *>(Shiboken::SbkType<QTimer>())->tp_init(pyTimer, emptyTuple, 0);
auto timer = %CONVERTTOCPP[QTimer *](pyTimer);
//XXX /|\ omitting this space crashes shiboken!
Shiboken::AutoDecRef result(
PyObject_CallMethod(pyTimer,
const_cast<char *>("connect"),
const_cast<char *>("OsOs"),
pyTimer,
SIGNAL(timeout()),
%PYARG_2,
%3)
);
Shiboken::Object::releaseOwnership((SbkObject *)pyTimer);
Py_XDECREF(pyTimer);
timer->setSingleShot(true);
timer->connect(timer, SIGNAL(timeout()), timer, SLOT(deleteLater()));
timer->start(%1);
// @snippet qtimer-singleshot-1
// @snippet qtimer-singleshot-2
// %FUNCTION_NAME() - disable generation of c++ function call
Shiboken::AutoDecRef emptyTuple(PyTuple_New(0));
PyObject *pyTimer = reinterpret_cast<PyTypeObject *>(Shiboken::SbkType<QTimer>())->tp_new(Shiboken::SbkType<QTimer>(), emptyTuple, 0);
reinterpret_cast<PyTypeObject *>(Shiboken::SbkType<QTimer>())->tp_init(pyTimer, emptyTuple, 0);
QTimer * timer = %CONVERTTOCPP[QTimer *](pyTimer);
timer->setSingleShot(true);
if (PyObject_TypeCheck(%2, PySideSignalInstanceTypeF())) {
PySideSignalInstance *signalInstance = reinterpret_cast<PySideSignalInstance *>(%2);
Shiboken::AutoDecRef signalSignature(Shiboken::String::fromFormat("2%s", PySide::Signal::getSignature(signalInstance)));
Shiboken::AutoDecRef result(
PyObject_CallMethod(pyTimer,
const_cast<char *>("connect"),
const_cast<char *>("OsOO"),
pyTimer,
SIGNAL(timeout()),
PySide::Signal::getObject(signalInstance),
signalSignature.object())
);
} else {
Shiboken::AutoDecRef result(
PyObject_CallMethod(pyTimer,
const_cast<char *>("connect"),
const_cast<char *>("OsO"),
pyTimer,
SIGNAL(timeout()),
%PYARG_2)
);
}
timer->connect(timer, SIGNAL(timeout()), timer, SLOT(deleteLater()), Qt::DirectConnection);
Shiboken::Object::releaseOwnership(reinterpret_cast<SbkObject *>(pyTimer));
Py_XDECREF(pyTimer);
timer->start(%1);
// @snippet qtimer-singleshot-2
// @snippet qprocess-startdetached
qint64 pid;
%RETURN_TYPE retval = %TYPE::%FUNCTION_NAME(%1, %2, %3, &pid);
%PYARG_0 = PyTuple_New(2);
PyTuple_SET_ITEM(%PYARG_0, 0, %CONVERTTOPYTHON[%RETURN_TYPE](retval));
PyTuple_SET_ITEM(%PYARG_0, 1, %CONVERTTOPYTHON[qint64](pid));
// @snippet qprocess-startdetached
// @snippet qprocess-pid
long result;
#ifdef WIN32
_PROCESS_INFORMATION *procInfo = %CPPSELF.%FUNCTION_NAME();
result = procInfo ? procInfo->dwProcessId : 0;
#else
result = %CPPSELF.%FUNCTION_NAME();
#endif
%PYARG_0 = %CONVERTTOPYTHON[long](result);
// @snippet qprocess-pid
// @snippet qcoreapplication-init
static void QCoreApplicationConstructor(PyObject *self, PyObject *pyargv, QCoreApplicationWrapper **cptr)
{
static int argc;
static char **argv;
PyObject *stringlist = PyTuple_GET_ITEM(pyargv, 0);
if (Shiboken::listToArgcArgv(stringlist, &argc, &argv, "PySideApp")) {
*cptr = new QCoreApplicationWrapper(argc, argv);
Shiboken::Object::releaseOwnership(reinterpret_cast<SbkObject *>(self));
PySide::registerCleanupFunction(&PySide::destroyQCoreApplication);
}
}
// @snippet qcoreapplication-init
// @snippet qcoreapplication-1
QCoreApplicationConstructor(%PYSELF, args, &%0);
// @snippet qcoreapplication-1
// @snippet qcoreapplication-2
PyObject *empty = PyTuple_New(2);
if (!PyTuple_SetItem(empty, 0, PyList_New(0))) {
QCoreApplicationConstructor(%PYSELF, empty, &%0);
}
// @snippet qcoreapplication-2
// @snippet qcoreapplication-instance
PyObject *pyApp = Py_None;
if (qApp) {
pyApp = reinterpret_cast<PyObject *>(
Shiboken::BindingManager::instance().retrieveWrapper(qApp));
if (!pyApp)
pyApp = %CONVERTTOPYTHON[QCoreApplication *](qApp);
// this will keep app live after python exit (extra ref)
}
// PYSIDE-571: make sure that we return the singleton "None"
if (Py_TYPE(pyApp) == Py_TYPE(Py_None))
Py_DECREF(MakeQAppWrapper(nullptr));
%PYARG_0 = pyApp;
Py_XINCREF(%PYARG_0);
// @snippet qcoreapplication-instance
// @snippet qdatastream-readrawdata
QByteArray data;
data.resize(%2);
int result = 0;
Py_BEGIN_ALLOW_THREADS
result = %CPPSELF.%FUNCTION_NAME(data.data(), data.size());
Py_END_ALLOW_THREADS
if (result == -1) {
Py_INCREF(Py_None);
%PYARG_0 = Py_None;
} else {
%PYARG_0 = PyBytes_FromStringAndSize(data.data(), result);
}
// @snippet qdatastream-readrawdata
// @snippet qdatastream-writerawdata
int r = 0;
Py_BEGIN_ALLOW_THREADS
r = %CPPSELF.%FUNCTION_NAME(%1, Shiboken::String::len(%PYARG_1));
Py_END_ALLOW_THREADS
%PYARG_0 = %CONVERTTOPYTHON[int](r);
// @snippet qdatastream-writerawdata
// @snippet releaseownership
Shiboken::Object::releaseOwnership(%PYARG_0);
// @snippet releaseownership
// @snippet qanimationgroup-clear
for (int counter = 0, count = %CPPSELF.animationCount(); counter < count; ++counter ) {
QAbstractAnimation *animation = %CPPSELF.animationAt(counter);
PyObject *obj = %CONVERTTOPYTHON[QAbstractAnimation *](animation);
Shiboken::Object::setParent(nullptr, obj);
Py_DECREF(obj);
}
%CPPSELF.clear();
// @snippet qanimationgroup-clear
// @snippet qeasingcurve
PySideEasingCurveFunctor::init();
// @snippet qeasingcurve
// @snippet qeasingcurve-setcustomtype
QEasingCurve::EasingFunction func = PySideEasingCurveFunctor::createCustomFuntion(%PYSELF, %PYARG_1);
if (func)
%CPPSELF.%FUNCTION_NAME(func);
// @snippet qeasingcurve-setcustomtype
// @snippet qeasingcurve-customtype
//%FUNCTION_NAME()
%PYARG_0 = PySideEasingCurveFunctor::callable(%PYSELF);
// @snippet qeasingcurve-customtype
// @snippet qsignaltransition
if (PyObject_TypeCheck(%1, PySideSignalInstanceTypeF())) {
PyObject *dataSource = PySide::Signal::getObject((PySideSignalInstance *)%PYARG_1);
Shiboken::AutoDecRef obType(PyObject_Type(dataSource));
QObject * sender = %CONVERTTOCPP[QObject *](dataSource);
//XXX /|\ omitting this space crashes shiboken!
if (sender) {
const char *dataSignature = PySide::Signal::getSignature((PySideSignalInstance *)%PYARG_1);
QByteArray signature(dataSignature); // Append SIGNAL flag (2)
signature.prepend('2');
%0 = new QSignalTransitionWrapper(sender, signature, %2);
}
}
// @snippet qsignaltransition
// @snippet qstate-addtransition-1
QString signalName(%2);
if (PySide::SignalManager::registerMetaMethod(%1, signalName.mid(1).toLatin1().data(), QMetaMethod::Signal)) {
QSignalTransition *%0 = %CPPSELF->addTransition(%1, %2, %3);
%PYARG_0 = %CONVERTTOPYTHON[QSignalTransition *](%0);
} else {
Py_INCREF(Py_None);
%PYARG_0 = Py_None;
}
// @snippet qstate-addtransition-1
// @snippet qstate-addtransition-2
// Obviously the label used by the following goto is a very awkward solution,
// since it refers to a name very tied to the generator implementation.
// Check bug #362 for more information on this
// http://bugs.openbossa.org/show_bug.cgi?id=362
if (!PyObject_TypeCheck(%1, PySideSignalInstanceTypeF()))
goto Sbk_%TYPEFunc_%FUNCTION_NAME_TypeError;
PySideSignalInstance *signalInstance = reinterpret_cast<PySideSignalInstance *>(%1);
auto sender = %CONVERTTOCPP[QObject *](PySide::Signal::getObject(signalInstance));
QSignalTransition *%0 = %CPPSELF->%FUNCTION_NAME(sender, PySide::Signal::getSignature(signalInstance),%2);
%PYARG_0 = %CONVERTTOPYTHON[QSignalTransition *](%0);
// @snippet qstate-addtransition-2
// @snippet qstatemachine-configuration
%PYARG_0 = PySet_New(0);
for (auto *abs_state : %CPPSELF.configuration()) {
Shiboken::AutoDecRef obj(%CONVERTTOPYTHON[QAbstractState *](abs_state));
Shiboken::Object::setParent(self, obj);
PySet_Add(%PYARG_0, obj);
}
// @snippet qstatemachine-configuration
// @snippet qstatemachine-defaultanimations
%PYARG_0 = PyList_New(0);
for (auto *abs_anim : %CPPSELF.defaultAnimations()) {
Shiboken::AutoDecRef obj(%CONVERTTOPYTHON[QAbstractAnimation *](abs_anim));
Shiboken::Object::setParent(self, obj);
PyList_Append(%PYARG_0, obj);
}
// @snippet qstatemachine-defaultanimations
// @snippet qt-signal
%PYARG_0 = Shiboken::String::fromFormat("2%s",QMetaObject::normalizedSignature(%1).constData());
// @snippet qt-signal
// @snippet qt-slot
%PYARG_0 = Shiboken::String::fromFormat("1%s",QMetaObject::normalizedSignature(%1).constData());
// @snippet qt-slot
// @snippet qt-registerresourcedata
QT_BEGIN_NAMESPACE
extern bool
qRegisterResourceData(int,
const unsigned char *,
const unsigned char *,
const unsigned char *);
extern bool
qUnregisterResourceData(int,
const unsigned char *,
const unsigned char *,
const unsigned char *);
QT_END_NAMESPACE
// @snippet qt-registerresourcedata
// @snippet qt-qregisterresourcedata
%RETURN_TYPE %0 = %FUNCTION_NAME(%1, reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_2)),
reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_3)),
reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_4)));
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qt-qregisterresourcedata
// @snippet qt-qunregisterresourcedata
%RETURN_TYPE %0 = %FUNCTION_NAME(%1, reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_2)),
reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_3)),
reinterpret_cast<uchar *>(PyBytes_AS_STRING(%PYARG_4)));
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qt-qunregisterresourcedata
// @snippet use-stream-for-format-security
// Uses the stream version for security reasons
// see gcc man page at -Wformat-security
Py_BEGIN_ALLOW_THREADS
%FUNCTION_NAME() << %1;
Py_END_ALLOW_THREADS
// @snippet use-stream-for-format-security
// @snippet qresource-registerResource
auto ptr = reinterpret_cast<uchar *>(Shiboken::Buffer::getPointer(%PYARG_1));
%RETURN_TYPE %0 = %CPPSELF.%FUNCTION_NAME(const_cast<const uchar *>(ptr), %2);
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](%0);
// @snippet qresource-registerResource
// @snippet qstring-return
%PYARG_0 = %CONVERTTOPYTHON[QString](%1);
// @snippet qstring-return
// @snippet stream-write-method
Py_BEGIN_ALLOW_THREADS
(*%CPPSELF) << %1;
Py_END_ALLOW_THREADS
// @snippet stream-write-method
// @snippet stream-read-method
%RETURN_TYPE _cpp_result;
Py_BEGIN_ALLOW_THREADS
(*%CPPSELF) >> _cpp_result;
Py_END_ALLOW_THREADS
%PYARG_0 = %CONVERTTOPYTHON[%RETURN_TYPE](_cpp_result);
// @snippet stream-read-method
// @snippet return-qstring-ref
QString &res = *%0;
%PYARG_0 = %CONVERTTOPYTHON[QString](res);
// @snippet return-qstring-ref
// @snippet return-readData
%RETURN_TYPE %0 = 0;
if (PyBytes_Check(%PYARG_0)) {
%0 = PyBytes_GET_SIZE((PyObject *)%PYARG_0);
memcpy(%1, PyBytes_AS_STRING((PyObject *)%PYARG_0), %0);
} else if (Shiboken::String::check(%PYARG_0)) {
%0 = Shiboken::String::len((PyObject *)%PYARG_0);
memcpy(%1, Shiboken::String::toCString((PyObject *)%PYARG_0), %0);
}
// @snippet return-readData
// @snippet qiodevice-readData
QByteArray ba(1 + int(%2), char(0));
Py_BEGIN_ALLOW_THREADS
%CPPSELF.%FUNCTION_NAME(ba.data(), int(%2));
Py_END_ALLOW_THREADS
%PYARG_0 = Shiboken::String::fromCString(ba.constData());
// @snippet qiodevice-readData
// @snippet qt-module-shutdown
{ // Avoid name clash
Shiboken::AutoDecRef regFunc(static_cast<PyObject *>(nullptr));
Shiboken::AutoDecRef atexit(Shiboken::Module::import("atexit"));
if (atexit.isNull()) {
qWarning("Module atexit not found for registering __moduleShutdown");
PyErr_Clear();
}else{
regFunc.reset(PyObject_GetAttrString(atexit, "register"));
if (regFunc.isNull()) {
qWarning("Function atexit.register not found for registering __moduleShutdown");
PyErr_Clear();
}
}
if (!atexit.isNull() && !regFunc.isNull()){
PyObject *shutDownFunc = PyObject_GetAttrString(module, "__moduleShutdown");
Shiboken::AutoDecRef args(PyTuple_New(1));
PyTuple_SET_ITEM(args, 0, shutDownFunc);
Shiboken::AutoDecRef retval(PyObject_Call(regFunc, args, 0));
Q_ASSERT(!retval.isNull());
}
}
// @snippet qt-module-shutdown
/*********************************************************************
* CONVERSIONS
********************************************************************/
// @snippet conversion-pybool
%out = %OUTTYPE(%in == Py_True);
// @snippet conversion-pybool
// @snippet conversion-pylong
%out = %OUTTYPE(PyLong_AsLong(%in));
// @snippet conversion-pylong
// @snippet conversion-pylong-unsigned
%out = %OUTTYPE(PyLong_AsUnsignedLong(%in));
// @snippet conversion-pylong-unsigned
// @snippet conversion-pylong-quintptr
#if defined(IS_PY3K) && QT_POINTER_SIZE == 8
%out = %OUTTYPE(PyLong_AsUnsignedLongLong(%in));
#else
%out = %OUTTYPE(PyLong_AsUnsignedLong(%in));
#endif
// @snippet conversion-pylong-quintptr
// @snippet conversion-pyunicode
#ifndef Py_LIMITED_API
Py_UNICODE *unicode = PyUnicode_AS_UNICODE(%in);
# if defined(Py_UNICODE_WIDE)
// cast as Py_UNICODE can be a different type
# if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
%out = QString::fromUcs4(reinterpret_cast<const char32_t *>(unicode));
# else
%out = QString::fromUcs4(reinterpret_cast<const uint *>(unicode));
# endif // Qt 6
# else // Py_UNICODE_WIDE
# if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
%out = QString::fromUtf16(reinterpret_cast<const char16_t *>(unicode), PepUnicode_GetLength(%in));
# else
%out = QString::fromUtf16(reinterpret_cast<const ushort *>(unicode), PepUnicode_GetLength(%in));
# endif // Qt 6
# endif
#else
wchar_t *temp = PyUnicode_AsWideCharString(%in, NULL);
%out = QString::fromWCharArray(temp);
PyMem_Free(temp);
#endif
// @snippet conversion-pyunicode
// @snippet conversion-pystring
#ifndef IS_PY3K
const char * str = %CONVERTTOCPP[const char *](%in);
//XXX /|\ omitting this space crashes shiboken!
%out = %OUTTYPE(str);
#endif
// @snippet conversion-pystring
// @snippet conversion-pynone
%out = %OUTTYPE();
// @snippet conversion-pynone
// @snippet conversion-pystring-char
char c = %CONVERTTOCPP[char](%in);
%out = %OUTTYPE(c);
// @snippet conversion-pystring-char
// @snippet conversion-pyint
int i = %CONVERTTOCPP[int](%in);
%out = %OUTTYPE(i);
// @snippet conversion-pyint
// @snippet conversion-qlonglong
// PYSIDE-1250: For QVariant, if the type fits into an int; use int preferably.
qlonglong in = %CONVERTTOCPP[qlonglong](%in);
constexpr qlonglong intMax = qint64(std::numeric_limits<int>::max());
constexpr qlonglong intMin = qint64(std::numeric_limits<int>::min());
%out = in >= intMin && in <= intMax ? %OUTTYPE(int(in)) : %OUTTYPE(in);
// @snippet conversion-qlonglong
// @snippet conversion-qstring
QString in = %CONVERTTOCPP[QString](%in);
%out = %OUTTYPE(in);
// @snippet conversion-qstring
// @snippet conversion-qbytearray
QByteArray in = %CONVERTTOCPP[QByteArray](%in);
%out = %OUTTYPE(in);
// @snippet conversion-qbytearray
// @snippet conversion-pyfloat
double in = %CONVERTTOCPP[double](%in);
%out = %OUTTYPE(in);
// @snippet conversion-pyfloat
// @snippet conversion-sbkobject
// a class supported by QVariant?
int typeCode;
const char *typeName = QVariant_resolveMetaType(Py_TYPE(%in), &typeCode);
if (!typeCode || !typeName) {
// If the type was not encountered, return a default PyObjectWrapper
%out = QVariant::fromValue(PySide::PyObjectWrapper(%in));
}
else {
QVariant var(typeCode, nullptr);
Shiboken::Conversions::SpecificConverter converter(typeName);
converter.toCpp(pyIn, var.data());
%out = var;
}
// @snippet conversion-sbkobject
// @snippet conversion-pydict
QVariant ret = QVariant_convertToVariantMap(%in);
%out = ret.isValid() ? ret : QVariant::fromValue(PySide::PyObjectWrapper(%in));
// @snippet conversion-pydict
// @snippet conversion-pylist
QVariant ret = QVariant_convertToVariantList(%in);
%out = ret.isValid() ? ret : QVariant::fromValue(PySide::PyObjectWrapper(%in));
// @snippet conversion-pylist
// @snippet conversion-pyobject
// Is a shiboken type not known by Qt
%out = QVariant::fromValue(PySide::PyObjectWrapper(%in));
// @snippet conversion-pyobject
// @snippet conversion-qvariant-invalid
%out = QVariant::Invalid;
// @snippet conversion-qvariant-invalid
// @snippet conversion-qvariant-pytypeobject
const char *typeName;
if (Shiboken::String::checkType(reinterpret_cast<PyTypeObject *>(%in)))
typeName = "QString";
else if (%in == reinterpret_cast<PyObject *>(&PyFloat_Type))
typeName = "double"; // float is a UserType in QVariant.
else if (%in == reinterpret_cast<PyObject *>(&PyLong_Type))
typeName = "int"; // long is a UserType in QVariant.
else if (Py_TYPE(%in) == SbkObjectType_TypeF())
typeName = Shiboken::ObjectType::getOriginalName((SbkObjectType *)%in);
else
typeName = reinterpret_cast<PyTypeObject *>(%in)->tp_name;
%out = QVariant::nameToType(typeName);
// @snippet conversion-qvariant-pytypeobject
// @snippet conversion-qvariant-pystring
%out = QVariant::nameToType(Shiboken::String::toCString(%in));
// @snippet conversion-qvariant-pystring
// @snippet conversion-qvariant-pydict
%out = QVariant::nameToType("QVariantMap");
// @snippet conversion-qvariant-pydict
// @snippet conversion-qvariant-pysequence
%out = QVariantType_isStringList(%in) ? QVariant::StringList : QVariant::List;
// @snippet conversion-qvariant-pysequence
// @snippet conversion-qjsonobject-pydict
QVariant dict = QVariant_convertToVariantMap(%in);
QJsonValue val = QJsonValue::fromVariant(dict);
%out = val.toObject();
// @snippet conversion-qjsonobject-pydict
// @snippet conversion-qpair-pysequence
%out.first = %CONVERTTOCPP[%OUTTYPE_0](PySequence_Fast_GET_ITEM(%in, 0));
%out.second = %CONVERTTOCPP[%OUTTYPE_1](PySequence_Fast_GET_ITEM(%in, 1));
// @snippet conversion-qpair-pysequence
// @snippet conversion-qdate-pydate
int day = PyDateTime_GET_DAY(%in);
int month = PyDateTime_GET_MONTH(%in);
int year = PyDateTime_GET_YEAR(%in);
%out = %OUTTYPE(year, month, day);
// @snippet conversion-qdate-pydate
// @snippet conversion-qdatetime-pydatetime
int day = PyDateTime_GET_DAY(%in);
int month = PyDateTime_GET_MONTH(%in);
int year = PyDateTime_GET_YEAR(%in);
int hour = PyDateTime_DATE_GET_HOUR(%in);
int min = PyDateTime_DATE_GET_MINUTE(%in);
int sec = PyDateTime_DATE_GET_SECOND(%in);
int usec = PyDateTime_DATE_GET_MICROSECOND(%in);
%out = %OUTTYPE(QDate(year, month, day), QTime(hour, min, sec, usec/1000));
// @snippet conversion-qdatetime-pydatetime
// @snippet conversion-qtime-pytime
int hour = PyDateTime_TIME_GET_HOUR(%in);
int min = PyDateTime_TIME_GET_MINUTE(%in);
int sec = PyDateTime_TIME_GET_SECOND(%in);
int usec = PyDateTime_TIME_GET_MICROSECOND(%in);
%out = %OUTTYPE(hour, min, sec, usec/1000);
// @snippet conversion-qtime-pytime
// @snippet conversion-qbytearray-pybytes
#ifdef IS_PY3K
%out = %OUTTYPE(PyBytes_AS_STRING(%in), PyBytes_GET_SIZE(%in));
#else
%out = %OUTTYPE(Shiboken::String::toCString(%in), Shiboken::String::len(%in));
#endif
// @snippet conversion-qbytearray-pybytes
// @snippet conversion-qbytearray-pybytearray
%out = %OUTTYPE(PyByteArray_AsString(%in), PyByteArray_Size(%in));
// @snippet conversion-qbytearray-pybytearray
// @snippet conversion-qbytearray-pystring
%out = %OUTTYPE(Shiboken::String::toCString(%in), Shiboken::String::len(%in));
// @snippet conversion-qbytearray-pystring
/*********************************************************************
* NATIVE TO TARGET CONVERSIONS
********************************************************************/
// @snippet return-pybool
return PyBool_FromLong((bool)%in);
// @snippet return-pybool
// @snippet return-pylong
return PyLong_FromLong(%in);
// @snippet return-pylong
// @snippet return-pylong-unsigned
return PyLong_FromUnsignedLong(%in);
// @snippet return-pylong-unsigned
// @snippet return-pylong-quintptr
#if defined(IS_PY3K) && QT_POINTER_SIZE == 8
return PyLong_FromUnsignedLongLong(%in);
#else
return PyLong_FromUnsignedLong(%in);
#endif
// @snippet return-pylong-quintptr
// @snippet return-pyunicode
QByteArray ba = %in.toUtf8();
return PyUnicode_FromStringAndSize(ba.constData(), ba.size());
// @snippet return-pyunicode
// @snippet return-pyunicode-qstringref
const int N = %in.length();
wchar_t *str = new wchar_t[N];
%in.toString().toWCharArray(str);
PyObject *%out = PyUnicode_FromWideChar(str, N);
delete[] str;
return %out;
// @snippet return-pyunicode-qstringref
// @snippet return-pyunicode-qchar
wchar_t c = (wchar_t)%in.unicode();
return PyUnicode_FromWideChar(&c, 1);
// @snippet return-pyunicode-qchar
// @snippet return-qvariant
if (!%in.isValid())
Py_RETURN_NONE;
if (qstrcmp(%in.typeName(), "QVariantList") == 0) {
QList<QVariant> var = %in.value<QVariantList>();
return %CONVERTTOPYTHON[QList<QVariant>](var);
}
if (qstrcmp(%in.typeName(), "QStringList") == 0) {
QStringList var = %in.value<QStringList>();
return %CONVERTTOPYTHON[QList<QString>](var);
}
if (qstrcmp(%in.typeName(), "QVariantMap") == 0) {
QMap<QString, QVariant> var = %in.value<QVariantMap>();
return %CONVERTTOPYTHON[QMap<QString, QVariant>](var);
}
Shiboken::Conversions::SpecificConverter converter(cppInRef.typeName());
if (converter) {
void *ptr = cppInRef.data();
return converter.toPython(ptr);
}
PyErr_Format(PyExc_RuntimeError, "Can't find converter for '%s'.", %in.typeName());
return 0;
// @snippet return-qvariant
// @snippet return-qvariant-type
const char *typeName = QVariant::typeToName(%in);
PyObject *%out;
PyTypeObject *pyType = nullptr;
if (typeName)
pyType = Shiboken::Conversions::getPythonTypeObject(typeName);
%out = pyType ? (reinterpret_cast<PyObject *>(pyType)) : Py_None;
Py_INCREF(%out);
return %out;
// @snippet return-qvariant-type
// @snippet return-qjsonobject
// The QVariantMap returned by QJsonObject seems to cause a segfault, so
// using QJsonObject.toVariantMap() won't work.
// Wrapping it in a QJsonValue first allows it to work
QJsonValue val(%in);
QVariant ret = val.toVariant();
return %CONVERTTOPYTHON[QVariant](ret);
// @snippet return-qjsonobject
// @snippet return-qpair
PyObject *%out = PyTuple_New(2);
PyTuple_SET_ITEM(%out, 0, %CONVERTTOPYTHON[%INTYPE_0](%in.first));
PyTuple_SET_ITEM(%out, 1, %CONVERTTOPYTHON[%INTYPE_1](%in.second));
return %out;
// @snippet return-qpair
// @snippet qthread_pthread_cleanup
#ifdef Q_OS_UNIX
# include <stdio.h>
# include <pthread.h>
static void qthread_pthread_cleanup(void *arg)
{
// PYSIDE 1282: When terminating a thread using QThread::terminate()
// (pthread_cancel()), QThread::run() is aborted and the lock is released,
// but ~GilState() is still executed for some reason. Prevent it from
// releasing.
auto gil = reinterpret_cast<Shiboken::GilState *>(arg);
gil->abandon();
}
#endif // Q_OS_UNIX
// @snippet qthread_pthread_cleanup
// @snippet qthread_pthread_cleanup_install
#ifdef Q_OS_UNIX
pthread_cleanup_push(qthread_pthread_cleanup, &gil);
#endif
// @snippet qthread_pthread_cleanup_install
// @snippet qthread_pthread_cleanup_uninstall
#ifdef Q_OS_UNIX
pthread_cleanup_pop(0);
#endif
// @snippet qthread_pthread_cleanup_uninstall
// @snippet qlibraryinfo_build
#if defined(IS_PY3K) && defined(Py_LIMITED_API)
auto suffix = PyUnicode_FromString(" [limited API]");
auto oldResult = pyResult;
pyResult = PyUnicode_Concat(pyResult, suffix);
Py_DECREF(oldResult);
Py_DECREF(suffix);
#endif
// @snippet qlibraryinfo_build
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