############################################################################# ## ## Copyright (C) 2019 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. ## ## $QT_END_LICENSE$ ## ############################################################################# from __future__ import print_function, absolute_import """ mapping.py This module has the mapping from the pyside C-modules view of signatures to the Python representation. The PySide modules are not loaded in advance, but only after they appear in sys.modules. This minimizes the loading overhead. """ import sys import struct import os from shibokensupport.signature import typing from shibokensupport.signature.typing import TypeVar, Generic from shibokensupport.signature.lib.tool import with_metaclass if sys.version_info[0] == 3: # Avoid a deprecation warning from _imp import is_builtin else: from imp import is_builtin class ellipsis(object): def __repr__(self): return "..." ellipsis = ellipsis() Point = typing.Tuple[float, float] Variant = typing.Any ModelIndexList = typing.List[int] QImageCleanupFunction = typing.Callable # unfortunately, typing.Optional[t] expands to typing.Union[t, NoneType] # Until we can force it to create Optional[t] again, we use this. NoneType = type(None) _S = TypeVar("_S") MultiMap = typing.DefaultDict[str, typing.List[str]] # ulong_max is only 32 bit on windows. ulong_max = 2*sys.maxsize+1 if len(struct.pack("L", 1)) != 4 else 0xffffffff ushort_max = 0xffff GL_COLOR_BUFFER_BIT = 0x00004000 GL_NEAREST = 0x2600 WId = int # from 5.9 GL_TEXTURE_2D = 0x0DE1 GL_RGBA = 0x1908 class _NotCalled(str): """ Wrap some text with semantics This class is wrapped around text in order to avoid calling it. There are three reasons for this: - some instances cannot be created since they are abstract, - some can only be created after qApp was created, - some have an ugly __repr__ with angle brackets in it. By using derived classes, good looking instances can be created which can be used to generate source code or .pyi files. When the real object is needed, the wrapper can simply be called. """ def __repr__(self): return "{}({})".format(type(self).__name__, self) def __call__(self): from shibokensupport.signature.mapping import __dict__ as namespace text = self if self.endswith(")") else self + "()" return eval(text, namespace) USE_PEP563 = False # Note: we cannot know if this feature has been imported. # Otherwise it would be "sys.version_info[:2] >= (3, 7)". # We *can* eventually inspect sys.modules and look if # the calling module has this future statement set, # but should we do that? # Some types are abstract. They just show their name. class Virtual(_NotCalled): pass # Other types I simply could not find. class Missing(_NotCalled): # The string must be quoted, because the object does not exist. def __repr__(self): if USE_PEP563: return _NotCalled.__repr__(self) return '{}("{}")'.format(type(self).__name__, self) class Invalid(_NotCalled): pass # Helper types class Default(_NotCalled): pass class Instance(_NotCalled): pass # Parameterized primitive variables class _Parameterized(object): def __init__(self, type): self.type = type self.__name__ = self.__class__.__name__ def __repr__(self): return "{}({})".format( type(self).__name__, self.type.__name__) # Mark the primitive variables to be moved into the result. class ResultVariable(_Parameterized): pass # Mark the primitive variables to become Sequence, Iterable or List # (decided in the parser). class ArrayLikeVariable(_Parameterized): pass StringList = ArrayLikeVariable(str) class Reloader(object): """ Reloder class This is a singleton class which provides the update function for the shiboken and PySide classes. """ def __init__(self): self.sys_module_count = 0 @staticmethod def module_valid(mod): if getattr(mod, "__file__", None) and not os.path.isdir(mod.__file__): ending = os.path.splitext(mod.__file__)[-1] return ending not in (".py", ".pyc", ".pyo", ".pyi") # Python 2 leaves lots of empty crap in sys.modules return bool(hasattr(mod, "__name__") and is_builtin(mod.__name__)) def update(self): """ 'update' imports all binary modules which are already in sys.modules. The reason is to follow all user imports without introducing new ones. This function is called by pyside_type_init to adapt imports when the number of imported modules has changed. """ if self.sys_module_count == len(sys.modules): return self.sys_module_count = len(sys.modules) g = globals() # PYSIDE-1009: Try to recognize unknown modules in errorhandler.py candidates = list(mod_name for mod_name in sys.modules.copy() if self.module_valid(sys.modules[mod_name])) for mod_name in candidates: # 'top' is PySide2 when we do 'import PySide.QtCore' # or Shiboken if we do 'import Shiboken'. # Convince yourself that these two lines below have the same # global effect as "import Shiboken" or "import PySide2.QtCore". top = __import__(mod_name) g[top.__name__] = top proc_name = "init_" + mod_name.replace(".", "_") if proc_name in g: # Modules are in place, we can update the type_map. g.update(g.pop(proc_name)()) def check_module(mod): # During a build, there exist the modules already as directories, # although the '*.so' was not yet created. This causes a problem # in Python 3, because it accepts folders as namespace modules # without enforcing an '__init__.py'. if not Reloader.module_valid(mod): mod_name = mod.__name__ raise ImportError("Module '{mod_name}' is not a binary module!" .format(**locals())) update_mapping = Reloader().update type_map = {} namespace = globals() # our module's __dict__ type_map.update({ "...": ellipsis, "bool": bool, "char": int, "char*": str, "char*const": str, "double": float, "float": float, "int": int, "List": ArrayLikeVariable, "long": int, "PyCallable": typing.Callable, "PyObject": object, "PySequence": typing.Iterable, # important for numpy "PyTypeObject": type, "QChar": str, "QHash": typing.Dict, "qint16": int, "qint32": int, "qint64": int, "qint8": int, "int16_t": int, "int32_t": int, "int64_t": int, "int8_t": int, "qintptr": int, "QList": ArrayLikeVariable, "qlonglong": int, "QMap": typing.Dict, "QPair": typing.Tuple, "qptrdiff": int, "qreal": float, "QSet": typing.Set, "QString": str, "QStringList": StringList, "quint16": int, "quint32": int, "quint32": int, "quint64": int, "quint8": int, "uint16_t": int, "uint32_t": int, "uint64_t": int, "uint8_t": int, "quintptr": int, "qulonglong": int, "QVariant": Variant, "QVector": typing.List, "QSharedPointer": typing.Tuple, "real": float, "short": int, "signed char": int, "signed long": int, "std.list": typing.List, "std.map": typing.Dict, "std.pair": typing.Tuple, "std.vector": typing.List, "str": str, "true": True, "Tuple": typing.Tuple, "uchar": int, "uchar*": str, "uint": int, "ulong": int, "ULONG_MAX": ulong_max, "unsigned char": int, # 5.9 "unsigned char*": str, "unsigned int": int, "unsigned long int": int, # 5.6, RHEL 6.6 "unsigned long long": int, "unsigned long": int, "unsigned short int": int, # 5.6, RHEL 6.6 "unsigned short": int, "Unspecified": None, "ushort": int, "void": int, # be more specific? "WId": WId, "zero(bytes)": b"", "zero(Char)": 0, "zero(float)": 0, "zero(int)": 0, "zero(object)": None, "zero(str)": "", "zero(typing.Any)": None, "zero(Any)": None, }) type_map.update({ # Handling variables declared as array: "array double*" : ArrayLikeVariable(float), "array float*" : ArrayLikeVariable(float), "array GLint*" : ArrayLikeVariable(int), "array GLuint*" : ArrayLikeVariable(int), "array int*" : ArrayLikeVariable(int), "array long long*" : ArrayLikeVariable(int), "array long*" : ArrayLikeVariable(int), "array short*" : ArrayLikeVariable(int), "array signed char*" : bytes, "array unsigned char*" : bytes, "array unsigned int*" : ArrayLikeVariable(int), "array unsigned short*" : ArrayLikeVariable(int), }) type_map.update({ # Special cases: "char*" : bytes, "QChar*" : bytes, "quint32*" : int, # only for QRandomGenerator "quint8*" : bytearray, # only for QCborStreamReader and QCborValue "uchar*" : bytes, "unsigned char*": bytes, }) type_map.update({ # Handling variables that are returned, eventually as Tuples: "bool*" : ResultVariable(bool), "float*" : ResultVariable(float), "int*" : ResultVariable(int), "long long*" : ResultVariable(int), "long*" : ResultVariable(int), "PStr*" : ResultVariable(str), # module sample "qint32*" : ResultVariable(int), "qint64*" : ResultVariable(int), "qreal*" : ResultVariable(float), "QString*" : ResultVariable(str), "quint16*" : ResultVariable(int), "uint*" : ResultVariable(int), "unsigned int*" : ResultVariable(int), "QStringList*" : ResultVariable(StringList), }) # PYSIDE-1328: We need to handle "self" explicitly. type_map.update({ "self" : "self", }) # PYSIDE-1538: We need to treat "std::optional" accordingly. type_map.update({ "std.optional": typing.Optional, }) # The Shiboken Part def init_Shiboken(): type_map.update({ "PyType": type, "shiboken2.bool": bool, "size_t": int, }) return locals() # side effect of different shiboken namings init_shiboken2 = init_shiboken2_shiboken2 = init_Shiboken def init_minimal(): type_map.update({ "MinBool": bool, }) return locals() def init_sample(): import datetime type_map.update({ "char": int, "char**": typing.List[str], "Complex": complex, "double": float, "Foo.HANDLE": int, "HANDLE": int, "Null": None, "nullptr": None, "ObjectType.Identifier": Missing("sample.ObjectType.Identifier"), "OddBool": bool, "PStr": str, "PyDate": datetime.date, "sample.bool": bool, "sample.char": int, "sample.double": float, "sample.int": int, "sample.ObjectType": object, "sample.OddBool": bool, "sample.Photon.TemplateBase[Photon.DuplicatorType]": sample.Photon.ValueDuplicator, "sample.Photon.TemplateBase[Photon.IdentityType]": sample.Photon.ValueIdentity, "sample.Point": Point, "sample.PStr": str, "sample.unsigned char": int, "std.size_t": int, "std.string": str, "ZeroIn": 0, 'Str("")': "", 'Str("nown>")': "nown>", }) return locals() def init_other(): import numbers type_map.update({ "other.ExtendsNoImplicitConversion": Missing("other.ExtendsNoImplicitConversion"), "other.Number": numbers.Number, }) return locals() def init_smart(): # This missing type should be defined in module smart. We cannot set it to Missing() # because it is a container type. Therefore, we supply a surrogate: global SharedPtr class SharedPtr(Generic[_S]): __module__ = "smart" smart.SharedPtr = SharedPtr type_map.update({ "smart.Smart.Integer2": int, }) return locals() # The PySide Part def init_PySide2_QtCore(): from PySide2.QtCore import Qt, QUrl, QDir from PySide2.QtCore import QRect, QSize, QPoint, QLocale, QByteArray from PySide2.QtCore import QMarginsF # 5.9 try: # seems to be not generated by 5.9 ATM. from PySide2.QtCore import Connection except ImportError: pass type_map.update({ "' '": " ", "'%'": "%", "'g'": "g", "4294967295UL": 4294967295, # 5.6, RHEL 6.6 "CheckIndexOption.NoOption": Instance( "PySide2.QtCore.QAbstractItemModel.CheckIndexOptions.NoOption"), # 5.11 "DescriptorType(-1)": int, # Native handle of QSocketDescriptor "false": False, "list of QAbstractAnimation": typing.List[PySide2.QtCore.QAbstractAnimation], "list of QAbstractState": typing.List[PySide2.QtCore.QAbstractState], "long long": int, "NULL": None, # 5.6, MSVC "nullptr": None, # 5.9 "PyByteArray": bytearray, "PyBytes": bytes, "QDeadlineTimer(QDeadlineTimer.Forever)": Instance("PySide2.QtCore.QDeadlineTimer"), "PySide2.QtCore.QUrl.ComponentFormattingOptions": PySide2.QtCore.QUrl.ComponentFormattingOption, # mismatch option/enum, why??? "PyUnicode": typing.Text, "Q_NULLPTR": None, "QDir.Filters(AllEntries | NoDotAndDotDot)": Instance( "QDir.Filters(QDir.AllEntries | QDir.NoDotAndDotDot)"), "QDir.SortFlags(Name | IgnoreCase)": Instance( "QDir.SortFlags(QDir.Name | QDir.IgnoreCase)"), "QGenericArgument((0))": ellipsis, # 5.6, RHEL 6.6. Is that ok? "QGenericArgument()": ellipsis, "QGenericArgument(0)": ellipsis, "QGenericArgument(NULL)": ellipsis, # 5.6, MSVC "QGenericArgument(nullptr)": ellipsis, # 5.10 "QGenericArgument(Q_NULLPTR)": ellipsis, "QJsonObject": typing.Dict[str, PySide2.QtCore.QJsonValue], "QModelIndex()": Invalid("PySide2.QtCore.QModelIndex"), # repr is btw. very wrong, fix it?! "QModelIndexList": ModelIndexList, "QModelIndexList": ModelIndexList, "QString()": "", "QStringList()": [], "QStringRef": str, "QStringRef": str, "Qt.HANDLE": int, # be more explicit with some constants? "QUrl.FormattingOptions(PrettyDecoded)": Instance( "QUrl.FormattingOptions(QUrl.PrettyDecoded)"), "QVariant()": Invalid(Variant), "QVariant.Type": type, # not so sure here... "QVariantMap": typing.Dict[str, Variant], "QVariantMap": typing.Dict[str, Variant], }) try: type_map.update({ "PySide2.QtCore.QMetaObject.Connection": PySide2.QtCore.Connection, # wrong! }) except AttributeError: # this does not exist on 5.9 ATM. pass return locals() def init_PySide2_QtConcurrent(): type_map.update({ "PySide2.QtCore.QFuture[QString]": PySide2.QtConcurrent.QFutureQString, "PySide2.QtCore.QFuture[void]": PySide2.QtConcurrent.QFutureVoid, }) return locals() def init_PySide2_QtGui(): from PySide2.QtGui import QPageLayout, QPageSize # 5.12 macOS type_map.update({ "0.0f": 0.0, "1.0f": 1.0, "GL_COLOR_BUFFER_BIT": GL_COLOR_BUFFER_BIT, "GL_NEAREST": GL_NEAREST, "int32_t": int, "QPixmap()": Default("PySide2.QtGui.QPixmap"), # can't create without qApp "QPlatformSurface*": int, # a handle "QVector< QTextLayout.FormatRange >()": [], # do we need more structure? "uint32_t": int, "uint8_t": int, "USHRT_MAX": ushort_max, }) return locals() def init_PySide2_QtWidgets(): from PySide2.QtWidgets import QWidget, QMessageBox, QStyleOption, QStyleHintReturn, QStyleOptionComplex from PySide2.QtWidgets import QGraphicsItem, QStyleOptionGraphicsItem # 5.9 type_map.update({ "QMessageBox.StandardButtons(Yes | No)": Instance( "QMessageBox.StandardButtons(QMessageBox.Yes | QMessageBox.No)"), "QWidget.RenderFlags(DrawWindowBackground | DrawChildren)": Instance( "QWidget.RenderFlags(QWidget.DrawWindowBackground | QWidget.DrawChildren)"), "SH_Default": QStyleHintReturn.SH_Default, "SO_Complex": QStyleOptionComplex.SO_Complex, "SO_Default": QStyleOption.SO_Default, "static_cast(Qt.MatchExactly|Qt.MatchCaseSensitive)": Instance( "Qt.MatchFlags(Qt.MatchExactly | Qt.MatchCaseSensitive)"), "Type": PySide2.QtWidgets.QListWidgetItem.Type, }) return locals() def init_PySide2_QtSql(): from PySide2.QtSql import QSqlDatabase type_map.update({ "QLatin1String(defaultConnection)": QSqlDatabase.defaultConnection, "QVariant.Invalid": Invalid("Variant"), # not sure what I should create, here... }) return locals() def init_PySide2_QtNetwork(): from PySide2.QtNetwork import QNetworkRequest best_structure = typing.OrderedDict if getattr(typing, "OrderedDict", None) else typing.Dict type_map.update({ "QMultiMap[PySide2.QtNetwork.QSsl.AlternativeNameEntryType, QString]": best_structure[PySide2.QtNetwork.QSsl.AlternativeNameEntryType, typing.List[str]], "DefaultTransferTimeoutConstant": QNetworkRequest.TransferTimeoutConstant, "QNetworkRequest.DefaultTransferTimeoutConstant": QNetworkRequest.TransferTimeoutConstant, }) del best_structure return locals() def init_PySide2_QtXmlPatterns(): from PySide2.QtXmlPatterns import QXmlName type_map.update({ "QXmlName.NamespaceCode": Missing("PySide2.QtXmlPatterns.QXmlName.NamespaceCode"), "QXmlName.PrefixCode": Missing("PySide2.QtXmlPatterns.QXmlName.PrefixCode"), }) return locals() def init_PySide2_QtMultimedia(): import PySide2.QtMultimediaWidgets # Check if foreign import is valid. See mapping.py in shiboken2. check_module(PySide2.QtMultimediaWidgets) type_map.update({ "QGraphicsVideoItem": PySide2.QtMultimediaWidgets.QGraphicsVideoItem, "qint64": int, "QVideoWidget": PySide2.QtMultimediaWidgets.QVideoWidget, }) return locals() def init_PySide2_QtOpenGL(): type_map.update({ "GLbitfield": int, "GLenum": int, "GLfloat": float, # 5.6, MSVC 15 "GLint": int, "GLuint": int, }) return locals() def init_PySide2_QtQml(): type_map.update({ "QJSValueList()": [], "QVariantHash()": typing.Dict[str, Variant], # from 5.9 }) return locals() def init_PySide2_QtQuick(): type_map.update({ "PySide2.QtQuick.QSharedPointer[PySide2.QtQuick.QQuickItemGrabResult]": PySide2.QtQuick.QQuickItemGrabResult, "UnsignedShortType": int, }) return locals() def init_PySide2_QtScript(): type_map.update({ "QScriptValueList()": [], }) return locals() def init_PySide2_QtTest(): type_map.update({ "PySide2.QtTest.QTest.PySideQTouchEventSequence": PySide2.QtTest.QTest.QTouchEventSequence, "PySide2.QtTest.QTouchEventSequence": PySide2.QtTest.QTest.QTouchEventSequence, }) return locals() # from 5.6, MSVC def init_PySide2_QtWinExtras(): type_map.update({ "QList< QWinJumpListItem* >()": [], }) return locals() # from 5.12, macOS def init_PySide2_QtDataVisualization(): from PySide2.QtDataVisualization import QtDataVisualization QtDataVisualization.QBarDataRow = typing.List[QtDataVisualization.QBarDataItem] QtDataVisualization.QBarDataArray = typing.List[QtDataVisualization.QBarDataRow] QtDataVisualization.QSurfaceDataRow = typing.List[QtDataVisualization.QSurfaceDataItem] QtDataVisualization.QSurfaceDataArray = typing.List[QtDataVisualization.QSurfaceDataRow] type_map.update({ "100.0f": 100.0, "QtDataVisualization.QBarDataArray": QtDataVisualization.QBarDataArray, "QtDataVisualization.QBarDataArray*": QtDataVisualization.QBarDataArray, "QtDataVisualization.QSurfaceDataArray": QtDataVisualization.QSurfaceDataArray, "QtDataVisualization.QSurfaceDataArray*": QtDataVisualization.QSurfaceDataArray, }) return locals() def init_testbinding(): type_map.update({ "testbinding.PySideCPP2.TestObjectWithoutNamespace": testbinding.TestObjectWithoutNamespace, }) return locals() # end of file