// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Author: petar@google.com (Petar Petrov) #include #include #include #include #include #include #include #include #include #include #include #include #if PY_MAJOR_VERSION >= 3 #define PyString_FromStringAndSize PyUnicode_FromStringAndSize #define PyString_Check PyUnicode_Check #define PyString_InternFromString PyUnicode_InternFromString #define PyInt_FromLong PyLong_FromLong #define PyInt_FromSize_t PyLong_FromSize_t #if PY_VERSION_HEX < 0x03030000 #error "Python 3.0 - 3.2 are not supported." #endif #define PyString_AsStringAndSize(ob, charpp, sizep) \ (PyUnicode_Check(ob)? \ ((*(charpp) = PyUnicode_AsUTF8AndSize(ob, (sizep))) == NULL? -1: 0): \ PyBytes_AsStringAndSize(ob, (charpp), (sizep))) #endif namespace google { namespace protobuf { namespace python { // Store interned descriptors, so that the same C++ descriptor yields the same // Python object. Objects are not immortal: this map does not own the // references, and items are deleted when the last reference to the object is // released. // This is enough to support the "is" operator on live objects. // All descriptors are stored here. hash_map interned_descriptors; PyObject* PyString_FromCppString(const string& str) { return PyString_FromStringAndSize(str.c_str(), str.size()); } // Check that the calling Python code is the global scope of a _pb2.py module. // This function is used to support the current code generated by the proto // compiler, which creates descriptors, then update some properties. // For example: // message_descriptor = Descriptor( // name='Message', // fields = [FieldDescriptor(name='field')] // message_descriptor.fields[0].containing_type = message_descriptor // // This code is still executed, but the descriptors now have no other storage // than the (const) C++ pointer, and are immutable. // So we let this code pass, by simply ignoring the new value. // // From user code, descriptors still look immutable. // // TODO(amauryfa): Change the proto2 compiler to remove the assignments, and // remove this hack. bool _CalledFromGeneratedFile(int stacklevel) { #ifndef PYPY_VERSION // This check is not critical and is somewhat difficult to implement correctly // in PyPy. PyFrameObject* frame = PyEval_GetFrame(); if (frame == NULL) { return false; } while (stacklevel-- > 0) { frame = frame->f_back; if (frame == NULL) { return false; } } if (frame->f_globals != frame->f_locals) { // Not at global module scope return false; } if (frame->f_code->co_filename == NULL) { return false; } char* filename; Py_ssize_t filename_size; if (PyString_AsStringAndSize(frame->f_code->co_filename, &filename, &filename_size) < 0) { // filename is not a string. PyErr_Clear(); return false; } if (filename_size < 7) { // filename is too short. return false; } if (strcmp(&filename[filename_size - 7], "_pb2.py") != 0) { // Filename is not ending with _pb2. return false; } #endif return true; } // If the calling code is not a _pb2.py file, raise AttributeError. // To be used in attribute setters. static int CheckCalledFromGeneratedFile(const char* attr_name) { if (_CalledFromGeneratedFile(0)) { return 0; } PyErr_Format(PyExc_AttributeError, "attribute is not writable: %s", attr_name); return -1; } #ifndef PyVarObject_HEAD_INIT #define PyVarObject_HEAD_INIT(type, size) PyObject_HEAD_INIT(type) size, #endif #ifndef Py_TYPE #define Py_TYPE(ob) (((PyObject*)(ob))->ob_type) #endif // Helper functions for descriptor objects. // A set of templates to retrieve the C++ FileDescriptor of any descriptor. template const FileDescriptor* GetFileDescriptor(const DescriptorClass* descriptor) { return descriptor->file(); } template<> const FileDescriptor* GetFileDescriptor(const FileDescriptor* descriptor) { return descriptor; } template<> const FileDescriptor* GetFileDescriptor(const EnumValueDescriptor* descriptor) { return descriptor->type()->file(); } template<> const FileDescriptor* GetFileDescriptor(const OneofDescriptor* descriptor) { return descriptor->containing_type()->file(); } template<> const FileDescriptor* GetFileDescriptor(const MethodDescriptor* descriptor) { return descriptor->service()->file(); } // Converts options into a Python protobuf, and cache the result. // // This is a bit tricky because options can contain extension fields defined in // the same proto file. In this case the options parsed from the serialized_pb // have unknown fields, and we need to parse them again. // // Always returns a new reference. template static PyObject* GetOrBuildOptions(const DescriptorClass *descriptor) { // Options (and their extensions) are completely resolved in the proto file // containing the descriptor. PyDescriptorPool* pool = GetDescriptorPool_FromPool( GetFileDescriptor(descriptor)->pool()); hash_map* descriptor_options = pool->descriptor_options; // First search in the cache. if (descriptor_options->find(descriptor) != descriptor_options->end()) { PyObject *value = (*descriptor_options)[descriptor]; Py_INCREF(value); return value; } // Build the Options object: get its Python class, and make a copy of the C++ // read-only instance. const Message& options(descriptor->options()); const Descriptor *message_type = options.GetDescriptor(); PyMessageFactory* message_factory = pool->py_message_factory; CMessageClass* message_class = message_factory::GetMessageClass( message_factory, message_type); if (message_class == NULL) { // The Options message was not found in the current DescriptorPool. // This means that the pool cannot contain any extensions to the Options // message either, so falling back to the basic pool we can only increase // the chances of successfully parsing the options. PyErr_Clear(); pool = GetDefaultDescriptorPool(); message_factory = pool->py_message_factory; message_class = message_factory::GetMessageClass( message_factory, message_type); } if (message_class == NULL) { PyErr_Format(PyExc_TypeError, "Could not retrieve class for Options: %s", message_type->full_name().c_str()); return NULL; } ScopedPyObjectPtr value( PyEval_CallObject(message_class->AsPyObject(), NULL)); if (value == NULL) { return NULL; } if (!PyObject_TypeCheck(value.get(), &CMessage_Type)) { PyErr_Format(PyExc_TypeError, "Invalid class for %s: %s", message_type->full_name().c_str(), Py_TYPE(value.get())->tp_name); return NULL; } CMessage* cmsg = reinterpret_cast(value.get()); const Reflection* reflection = options.GetReflection(); const UnknownFieldSet& unknown_fields(reflection->GetUnknownFields(options)); if (unknown_fields.empty()) { cmsg->message->CopyFrom(options); } else { // Reparse options string! XXX call cmessage::MergeFromString string serialized; options.SerializeToString(&serialized); io::CodedInputStream input( reinterpret_cast(serialized.c_str()), serialized.size()); input.SetExtensionRegistry(pool->pool, message_factory->message_factory); bool success = cmsg->message->MergePartialFromCodedStream(&input); if (!success) { PyErr_Format(PyExc_ValueError, "Error parsing Options message"); return NULL; } } // Cache the result. Py_INCREF(value.get()); (*descriptor_options)[descriptor] = value.get(); return value.release(); } // Copy the C++ descriptor to a Python message. // The Python message is an instance of descriptor_pb2.DescriptorProto // or similar. template static PyObject* CopyToPythonProto(const DescriptorClass *descriptor, PyObject *target) { const Descriptor* self_descriptor = DescriptorProtoClass::default_instance().GetDescriptor(); CMessage* message = reinterpret_cast(target); if (!PyObject_TypeCheck(target, &CMessage_Type) || message->message->GetDescriptor() != self_descriptor) { PyErr_Format(PyExc_TypeError, "Not a %s message", self_descriptor->full_name().c_str()); return NULL; } cmessage::AssureWritable(message); DescriptorProtoClass* descriptor_message = static_cast(message->message); descriptor->CopyTo(descriptor_message); Py_RETURN_NONE; } // All Descriptors classes share the same memory layout. typedef struct PyBaseDescriptor { PyObject_HEAD // Pointer to the C++ proto2 descriptor. // Like all descriptors, it is owned by the global DescriptorPool. const void* descriptor; // Owned reference to the DescriptorPool, to ensure it is kept alive. PyDescriptorPool* pool; } PyBaseDescriptor; // FileDescriptor structure "inherits" from the base descriptor. typedef struct PyFileDescriptor { PyBaseDescriptor base; // The cached version of serialized pb. Either NULL, or a Bytes string. // We own the reference. PyObject *serialized_pb; } PyFileDescriptor; namespace descriptor { // Creates or retrieve a Python descriptor of the specified type. // Objects are interned: the same descriptor will return the same object if it // was kept alive. // 'was_created' is an optional pointer to a bool, and is set to true if a new // object was allocated. // Always return a new reference. template PyObject* NewInternedDescriptor(PyTypeObject* type, const DescriptorClass* descriptor, bool* was_created) { if (was_created) { *was_created = false; } if (descriptor == NULL) { PyErr_BadInternalCall(); return NULL; } // See if the object is in the map of interned descriptors hash_map::iterator it = interned_descriptors.find(descriptor); if (it != interned_descriptors.end()) { GOOGLE_DCHECK(Py_TYPE(it->second) == type); Py_INCREF(it->second); return it->second; } // Create a new descriptor object PyBaseDescriptor* py_descriptor = PyObject_New( PyBaseDescriptor, type); if (py_descriptor == NULL) { return NULL; } py_descriptor->descriptor = descriptor; // and cache it. interned_descriptors.insert( std::make_pair(descriptor, reinterpret_cast(py_descriptor))); // Ensures that the DescriptorPool stays alive. PyDescriptorPool* pool = GetDescriptorPool_FromPool( GetFileDescriptor(descriptor)->pool()); if (pool == NULL) { // Don't DECREF, the object is not fully initialized. PyObject_Del(py_descriptor); return NULL; } Py_INCREF(pool); py_descriptor->pool = pool; if (was_created) { *was_created = true; } return reinterpret_cast(py_descriptor); } static void Dealloc(PyBaseDescriptor* self) { // Remove from interned dictionary interned_descriptors.erase(self->descriptor); Py_CLEAR(self->pool); Py_TYPE(self)->tp_free(reinterpret_cast(self)); } static PyGetSetDef Getters[] = { {NULL} }; PyTypeObject PyBaseDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".DescriptorBase", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize (destructor)Dealloc, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "Descriptors base class", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext 0, // tp_methods 0, // tp_members Getters, // tp_getset }; } // namespace descriptor const void* PyDescriptor_AsVoidPtr(PyObject* obj) { if (!PyObject_TypeCheck(obj, &descriptor::PyBaseDescriptor_Type)) { PyErr_SetString(PyExc_TypeError, "Not a BaseDescriptor"); return NULL; } return reinterpret_cast(obj)->descriptor; } namespace message_descriptor { // Unchecked accessor to the C++ pointer. static const Descriptor* _GetDescriptor(PyBaseDescriptor* self) { return reinterpret_cast(self->descriptor); } static PyObject* GetName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetFile(PyBaseDescriptor *self, void *closure) { return PyFileDescriptor_FromDescriptor(_GetDescriptor(self)->file()); } static PyObject* GetConcreteClass(PyBaseDescriptor* self, void *closure) { // Retuns the canonical class for the given descriptor. // This is the class that was registered with the primary descriptor pool // which contains this descriptor. // This might not be the one you expect! For example the returned object does // not know about extensions defined in a custom pool. CMessageClass* concrete_class(message_factory::GetMessageClass( GetDescriptorPool_FromPool( _GetDescriptor(self)->file()->pool())->py_message_factory, _GetDescriptor(self))); Py_XINCREF(concrete_class); return concrete_class->AsPyObject(); } static PyObject* GetFieldsByName(PyBaseDescriptor* self, void *closure) { return NewMessageFieldsByName(_GetDescriptor(self)); } static PyObject* GetFieldsByCamelcaseName(PyBaseDescriptor* self, void *closure) { return NewMessageFieldsByCamelcaseName(_GetDescriptor(self)); } static PyObject* GetFieldsByNumber(PyBaseDescriptor* self, void *closure) { return NewMessageFieldsByNumber(_GetDescriptor(self)); } static PyObject* GetFieldsSeq(PyBaseDescriptor* self, void *closure) { return NewMessageFieldsSeq(_GetDescriptor(self)); } static PyObject* GetNestedTypesByName(PyBaseDescriptor* self, void *closure) { return NewMessageNestedTypesByName(_GetDescriptor(self)); } static PyObject* GetNestedTypesSeq(PyBaseDescriptor* self, void *closure) { return NewMessageNestedTypesSeq(_GetDescriptor(self)); } static PyObject* GetExtensionsByName(PyBaseDescriptor* self, void *closure) { return NewMessageExtensionsByName(_GetDescriptor(self)); } static PyObject* GetExtensions(PyBaseDescriptor* self, void *closure) { return NewMessageExtensionsSeq(_GetDescriptor(self)); } static PyObject* GetEnumsSeq(PyBaseDescriptor* self, void *closure) { return NewMessageEnumsSeq(_GetDescriptor(self)); } static PyObject* GetEnumTypesByName(PyBaseDescriptor* self, void *closure) { return NewMessageEnumsByName(_GetDescriptor(self)); } static PyObject* GetEnumValuesByName(PyBaseDescriptor* self, void *closure) { return NewMessageEnumValuesByName(_GetDescriptor(self)); } static PyObject* GetOneofsByName(PyBaseDescriptor* self, void *closure) { return NewMessageOneofsByName(_GetDescriptor(self)); } static PyObject* GetOneofsSeq(PyBaseDescriptor* self, void *closure) { return NewMessageOneofsSeq(_GetDescriptor(self)); } static PyObject* IsExtendable(PyBaseDescriptor *self, void *closure) { if (_GetDescriptor(self)->extension_range_count() > 0) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static PyObject* GetExtensionRanges(PyBaseDescriptor *self, void *closure) { const Descriptor* descriptor = _GetDescriptor(self); PyObject* range_list = PyList_New(descriptor->extension_range_count()); for (int i = 0; i < descriptor->extension_range_count(); i++) { const Descriptor::ExtensionRange* range = descriptor->extension_range(i); PyObject* start = PyInt_FromLong(range->start); PyObject* end = PyInt_FromLong(range->end); PyList_SetItem(range_list, i, PyTuple_Pack(2, start, end)); } return range_list; } static PyObject* GetContainingType(PyBaseDescriptor *self, void *closure) { const Descriptor* containing_type = _GetDescriptor(self)->containing_type(); if (containing_type) { return PyMessageDescriptor_FromDescriptor(containing_type); } else { Py_RETURN_NONE; } } static int SetContainingType(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("containing_type"); } static PyObject* GetHasOptions(PyBaseDescriptor *self, void *closure) { const MessageOptions& options(_GetDescriptor(self)->options()); if (&options != &MessageOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyObject* CopyToProto(PyBaseDescriptor *self, PyObject *target) { return CopyToPythonProto(_GetDescriptor(self), target); } static PyObject* EnumValueName(PyBaseDescriptor *self, PyObject *args) { const char *enum_name; int number; if (!PyArg_ParseTuple(args, "si", &enum_name, &number)) return NULL; const EnumDescriptor *enum_type = _GetDescriptor(self)->FindEnumTypeByName(enum_name); if (enum_type == NULL) { PyErr_SetString(PyExc_KeyError, enum_name); return NULL; } const EnumValueDescriptor *enum_value = enum_type->FindValueByNumber(number); if (enum_value == NULL) { PyErr_Format(PyExc_KeyError, "%d", number); return NULL; } return PyString_FromCppString(enum_value->name()); } static PyObject* GetSyntax(PyBaseDescriptor *self, void *closure) { return PyString_InternFromString( FileDescriptor::SyntaxName(_GetDescriptor(self)->file()->syntax())); } static PyGetSetDef Getters[] = { { "name", (getter)GetName, NULL, "Last name"}, { "full_name", (getter)GetFullName, NULL, "Full name"}, { "_concrete_class", (getter)GetConcreteClass, NULL, "concrete class"}, { "file", (getter)GetFile, NULL, "File descriptor"}, { "fields", (getter)GetFieldsSeq, NULL, "Fields sequence"}, { "fields_by_name", (getter)GetFieldsByName, NULL, "Fields by name"}, { "fields_by_camelcase_name", (getter)GetFieldsByCamelcaseName, NULL, "Fields by camelCase name"}, { "fields_by_number", (getter)GetFieldsByNumber, NULL, "Fields by number"}, { "nested_types", (getter)GetNestedTypesSeq, NULL, "Nested types sequence"}, { "nested_types_by_name", (getter)GetNestedTypesByName, NULL, "Nested types by name"}, { "extensions", (getter)GetExtensions, NULL, "Extensions Sequence"}, { "extensions_by_name", (getter)GetExtensionsByName, NULL, "Extensions by name"}, { "extension_ranges", (getter)GetExtensionRanges, NULL, "Extension ranges"}, { "enum_types", (getter)GetEnumsSeq, NULL, "Enum sequence"}, { "enum_types_by_name", (getter)GetEnumTypesByName, NULL, "Enum types by name"}, { "enum_values_by_name", (getter)GetEnumValuesByName, NULL, "Enum values by name"}, { "oneofs_by_name", (getter)GetOneofsByName, NULL, "Oneofs by name"}, { "oneofs", (getter)GetOneofsSeq, NULL, "Oneofs by name"}, { "containing_type", (getter)GetContainingType, (setter)SetContainingType, "Containing type"}, { "is_extendable", (getter)IsExtendable, (setter)NULL}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, { "syntax", (getter)GetSyntax, (setter)NULL, "Syntax"}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, { "CopyToProto", (PyCFunction)CopyToProto, METH_O, }, { "EnumValueName", (PyCFunction)EnumValueName, METH_VARARGS, }, {NULL} }; } // namespace message_descriptor PyTypeObject PyMessageDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".MessageDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Message Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext message_descriptor::Methods, // tp_methods 0, // tp_members message_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyMessageDescriptor_FromDescriptor( const Descriptor* message_descriptor) { return descriptor::NewInternedDescriptor( &PyMessageDescriptor_Type, message_descriptor, NULL); } const Descriptor* PyMessageDescriptor_AsDescriptor(PyObject* obj) { if (!PyObject_TypeCheck(obj, &PyMessageDescriptor_Type)) { PyErr_SetString(PyExc_TypeError, "Not a MessageDescriptor"); return NULL; } return reinterpret_cast( reinterpret_cast(obj)->descriptor); } namespace field_descriptor { // Unchecked accessor to the C++ pointer. static const FieldDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetName(PyBaseDescriptor *self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetCamelcaseName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->camelcase_name()); } static PyObject* GetJsonName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->json_name()); } static PyObject* GetType(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->type()); } static PyObject* GetCppType(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->cpp_type()); } static PyObject* GetLabel(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->label()); } static PyObject* GetNumber(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->number()); } static PyObject* GetIndex(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->index()); } static PyObject* GetID(PyBaseDescriptor *self, void *closure) { return PyLong_FromVoidPtr(self); } static PyObject* IsExtension(PyBaseDescriptor *self, void *closure) { return PyBool_FromLong(_GetDescriptor(self)->is_extension()); } static PyObject* HasDefaultValue(PyBaseDescriptor *self, void *closure) { return PyBool_FromLong(_GetDescriptor(self)->has_default_value()); } static PyObject* GetDefaultValue(PyBaseDescriptor *self, void *closure) { PyObject *result; switch (_GetDescriptor(self)->cpp_type()) { case FieldDescriptor::CPPTYPE_INT32: { int32 value = _GetDescriptor(self)->default_value_int32(); result = PyInt_FromLong(value); break; } case FieldDescriptor::CPPTYPE_INT64: { int64 value = _GetDescriptor(self)->default_value_int64(); result = PyLong_FromLongLong(value); break; } case FieldDescriptor::CPPTYPE_UINT32: { uint32 value = _GetDescriptor(self)->default_value_uint32(); result = PyInt_FromSize_t(value); break; } case FieldDescriptor::CPPTYPE_UINT64: { uint64 value = _GetDescriptor(self)->default_value_uint64(); result = PyLong_FromUnsignedLongLong(value); break; } case FieldDescriptor::CPPTYPE_FLOAT: { float value = _GetDescriptor(self)->default_value_float(); result = PyFloat_FromDouble(value); break; } case FieldDescriptor::CPPTYPE_DOUBLE: { double value = _GetDescriptor(self)->default_value_double(); result = PyFloat_FromDouble(value); break; } case FieldDescriptor::CPPTYPE_BOOL: { bool value = _GetDescriptor(self)->default_value_bool(); result = PyBool_FromLong(value); break; } case FieldDescriptor::CPPTYPE_STRING: { string value = _GetDescriptor(self)->default_value_string(); result = ToStringObject(_GetDescriptor(self), value); break; } case FieldDescriptor::CPPTYPE_ENUM: { const EnumValueDescriptor* value = _GetDescriptor(self)->default_value_enum(); result = PyInt_FromLong(value->number()); break; } default: PyErr_Format(PyExc_NotImplementedError, "default value for %s", _GetDescriptor(self)->full_name().c_str()); return NULL; } return result; } static PyObject* GetCDescriptor(PyObject *self, void *closure) { Py_INCREF(self); return self; } static PyObject *GetEnumType(PyBaseDescriptor *self, void *closure) { const EnumDescriptor* enum_type = _GetDescriptor(self)->enum_type(); if (enum_type) { return PyEnumDescriptor_FromDescriptor(enum_type); } else { Py_RETURN_NONE; } } static int SetEnumType(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("enum_type"); } static PyObject *GetMessageType(PyBaseDescriptor *self, void *closure) { const Descriptor* message_type = _GetDescriptor(self)->message_type(); if (message_type) { return PyMessageDescriptor_FromDescriptor(message_type); } else { Py_RETURN_NONE; } } static int SetMessageType(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("message_type"); } static PyObject* GetContainingType(PyBaseDescriptor *self, void *closure) { const Descriptor* containing_type = _GetDescriptor(self)->containing_type(); if (containing_type) { return PyMessageDescriptor_FromDescriptor(containing_type); } else { Py_RETURN_NONE; } } static int SetContainingType(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("containing_type"); } static PyObject* GetExtensionScope(PyBaseDescriptor *self, void *closure) { const Descriptor* extension_scope = _GetDescriptor(self)->extension_scope(); if (extension_scope) { return PyMessageDescriptor_FromDescriptor(extension_scope); } else { Py_RETURN_NONE; } } static PyObject* GetContainingOneof(PyBaseDescriptor *self, void *closure) { const OneofDescriptor* containing_oneof = _GetDescriptor(self)->containing_oneof(); if (containing_oneof) { return PyOneofDescriptor_FromDescriptor(containing_oneof); } else { Py_RETURN_NONE; } } static int SetContainingOneof(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("containing_oneof"); } static PyObject* GetHasOptions(PyBaseDescriptor *self, void *closure) { const FieldOptions& options(_GetDescriptor(self)->options()); if (&options != &FieldOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyGetSetDef Getters[] = { { "full_name", (getter)GetFullName, NULL, "Full name"}, { "name", (getter)GetName, NULL, "Unqualified name"}, { "camelcase_name", (getter)GetCamelcaseName, NULL, "Camelcase name"}, { "json_name", (getter)GetJsonName, NULL, "Json name"}, { "type", (getter)GetType, NULL, "C++ Type"}, { "cpp_type", (getter)GetCppType, NULL, "C++ Type"}, { "label", (getter)GetLabel, NULL, "Label"}, { "number", (getter)GetNumber, NULL, "Number"}, { "index", (getter)GetIndex, NULL, "Index"}, { "default_value", (getter)GetDefaultValue, NULL, "Default Value"}, { "has_default_value", (getter)HasDefaultValue}, { "is_extension", (getter)IsExtension, NULL, "ID"}, { "id", (getter)GetID, NULL, "ID"}, { "_cdescriptor", (getter)GetCDescriptor, NULL, "HAACK REMOVE ME"}, { "message_type", (getter)GetMessageType, (setter)SetMessageType, "Message type"}, { "enum_type", (getter)GetEnumType, (setter)SetEnumType, "Enum type"}, { "containing_type", (getter)GetContainingType, (setter)SetContainingType, "Containing type"}, { "extension_scope", (getter)GetExtensionScope, (setter)NULL, "Extension scope"}, { "containing_oneof", (getter)GetContainingOneof, (setter)SetContainingOneof, "Containing oneof"}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, {NULL} }; } // namespace field_descriptor PyTypeObject PyFieldDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".FieldDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Field Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext field_descriptor::Methods, // tp_methods 0, // tp_members field_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyFieldDescriptor_FromDescriptor( const FieldDescriptor* field_descriptor) { return descriptor::NewInternedDescriptor( &PyFieldDescriptor_Type, field_descriptor, NULL); } const FieldDescriptor* PyFieldDescriptor_AsDescriptor(PyObject* obj) { if (!PyObject_TypeCheck(obj, &PyFieldDescriptor_Type)) { PyErr_SetString(PyExc_TypeError, "Not a FieldDescriptor"); return NULL; } return reinterpret_cast( reinterpret_cast(obj)->descriptor); } namespace enum_descriptor { // Unchecked accessor to the C++ pointer. static const EnumDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetName(PyBaseDescriptor *self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetFile(PyBaseDescriptor *self, void *closure) { return PyFileDescriptor_FromDescriptor(_GetDescriptor(self)->file()); } static PyObject* GetEnumvaluesByName(PyBaseDescriptor* self, void *closure) { return NewEnumValuesByName(_GetDescriptor(self)); } static PyObject* GetEnumvaluesByNumber(PyBaseDescriptor* self, void *closure) { return NewEnumValuesByNumber(_GetDescriptor(self)); } static PyObject* GetEnumvaluesSeq(PyBaseDescriptor* self, void *closure) { return NewEnumValuesSeq(_GetDescriptor(self)); } static PyObject* GetContainingType(PyBaseDescriptor *self, void *closure) { const Descriptor* containing_type = _GetDescriptor(self)->containing_type(); if (containing_type) { return PyMessageDescriptor_FromDescriptor(containing_type); } else { Py_RETURN_NONE; } } static int SetContainingType(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("containing_type"); } static PyObject* GetHasOptions(PyBaseDescriptor *self, void *closure) { const EnumOptions& options(_GetDescriptor(self)->options()); if (&options != &EnumOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyObject* CopyToProto(PyBaseDescriptor *self, PyObject *target) { return CopyToPythonProto(_GetDescriptor(self), target); } static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, { "CopyToProto", (PyCFunction)CopyToProto, METH_O, }, {NULL} }; static PyGetSetDef Getters[] = { { "full_name", (getter)GetFullName, NULL, "Full name"}, { "name", (getter)GetName, NULL, "last name"}, { "file", (getter)GetFile, NULL, "File descriptor"}, { "values", (getter)GetEnumvaluesSeq, NULL, "values"}, { "values_by_name", (getter)GetEnumvaluesByName, NULL, "Enum values by name"}, { "values_by_number", (getter)GetEnumvaluesByNumber, NULL, "Enum values by number"}, { "containing_type", (getter)GetContainingType, (setter)SetContainingType, "Containing type"}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, {NULL} }; } // namespace enum_descriptor PyTypeObject PyEnumDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".EnumDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Enum Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext enum_descriptor::Methods, // tp_methods 0, // tp_members enum_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyEnumDescriptor_FromDescriptor( const EnumDescriptor* enum_descriptor) { return descriptor::NewInternedDescriptor( &PyEnumDescriptor_Type, enum_descriptor, NULL); } const EnumDescriptor* PyEnumDescriptor_AsDescriptor(PyObject* obj) { if (!PyObject_TypeCheck(obj, &PyEnumDescriptor_Type)) { PyErr_SetString(PyExc_TypeError, "Not an EnumDescriptor"); return NULL; } return reinterpret_cast( reinterpret_cast(obj)->descriptor); } namespace enumvalue_descriptor { // Unchecked accessor to the C++ pointer. static const EnumValueDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetName(PyBaseDescriptor *self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetNumber(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->number()); } static PyObject* GetIndex(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->index()); } static PyObject* GetType(PyBaseDescriptor *self, void *closure) { return PyEnumDescriptor_FromDescriptor(_GetDescriptor(self)->type()); } static PyObject* GetHasOptions(PyBaseDescriptor *self, void *closure) { const EnumValueOptions& options(_GetDescriptor(self)->options()); if (&options != &EnumValueOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyGetSetDef Getters[] = { { "name", (getter)GetName, NULL, "name"}, { "number", (getter)GetNumber, NULL, "number"}, { "index", (getter)GetIndex, NULL, "index"}, { "type", (getter)GetType, NULL, "index"}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, {NULL} }; } // namespace enumvalue_descriptor PyTypeObject PyEnumValueDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".EnumValueDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A EnumValue Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext enumvalue_descriptor::Methods, // tp_methods 0, // tp_members enumvalue_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyEnumValueDescriptor_FromDescriptor( const EnumValueDescriptor* enumvalue_descriptor) { return descriptor::NewInternedDescriptor( &PyEnumValueDescriptor_Type, enumvalue_descriptor, NULL); } namespace file_descriptor { // Unchecked accessor to the C++ pointer. static const FileDescriptor* _GetDescriptor(PyFileDescriptor *self) { return reinterpret_cast(self->base.descriptor); } static void Dealloc(PyFileDescriptor* self) { Py_XDECREF(self->serialized_pb); descriptor::Dealloc(&self->base); } static PyObject* GetPool(PyFileDescriptor *self, void *closure) { PyObject* pool = reinterpret_cast( GetDescriptorPool_FromPool(_GetDescriptor(self)->pool())); Py_XINCREF(pool); return pool; } static PyObject* GetName(PyFileDescriptor *self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetPackage(PyFileDescriptor *self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->package()); } static PyObject* GetSerializedPb(PyFileDescriptor *self, void *closure) { PyObject *serialized_pb = self->serialized_pb; if (serialized_pb != NULL) { Py_INCREF(serialized_pb); return serialized_pb; } FileDescriptorProto file_proto; _GetDescriptor(self)->CopyTo(&file_proto); string contents; file_proto.SerializePartialToString(&contents); self->serialized_pb = PyBytes_FromStringAndSize( contents.c_str(), contents.size()); if (self->serialized_pb == NULL) { return NULL; } Py_INCREF(self->serialized_pb); return self->serialized_pb; } static PyObject* GetMessageTypesByName(PyFileDescriptor* self, void *closure) { return NewFileMessageTypesByName(_GetDescriptor(self)); } static PyObject* GetEnumTypesByName(PyFileDescriptor* self, void *closure) { return NewFileEnumTypesByName(_GetDescriptor(self)); } static PyObject* GetExtensionsByName(PyFileDescriptor* self, void *closure) { return NewFileExtensionsByName(_GetDescriptor(self)); } static PyObject* GetServicesByName(PyFileDescriptor* self, void *closure) { return NewFileServicesByName(_GetDescriptor(self)); } static PyObject* GetDependencies(PyFileDescriptor* self, void *closure) { return NewFileDependencies(_GetDescriptor(self)); } static PyObject* GetPublicDependencies(PyFileDescriptor* self, void *closure) { return NewFilePublicDependencies(_GetDescriptor(self)); } static PyObject* GetHasOptions(PyFileDescriptor *self, void *closure) { const FileOptions& options(_GetDescriptor(self)->options()); if (&options != &FileOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyFileDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyFileDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyFileDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyObject* GetSyntax(PyFileDescriptor *self, void *closure) { return PyString_InternFromString( FileDescriptor::SyntaxName(_GetDescriptor(self)->syntax())); } static PyObject* CopyToProto(PyFileDescriptor *self, PyObject *target) { return CopyToPythonProto(_GetDescriptor(self), target); } static PyGetSetDef Getters[] = { { "pool", (getter)GetPool, NULL, "pool"}, { "name", (getter)GetName, NULL, "name"}, { "package", (getter)GetPackage, NULL, "package"}, { "serialized_pb", (getter)GetSerializedPb}, { "message_types_by_name", (getter)GetMessageTypesByName, NULL, "Messages by name"}, { "enum_types_by_name", (getter)GetEnumTypesByName, NULL, "Enums by name"}, { "extensions_by_name", (getter)GetExtensionsByName, NULL, "Extensions by name"}, { "services_by_name", (getter)GetServicesByName, NULL, "Services by name"}, { "dependencies", (getter)GetDependencies, NULL, "Dependencies"}, { "public_dependencies", (getter)GetPublicDependencies, NULL, "Dependencies"}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, { "syntax", (getter)GetSyntax, (setter)NULL, "Syntax"}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, { "CopyToProto", (PyCFunction)CopyToProto, METH_O, }, {NULL} }; } // namespace file_descriptor PyTypeObject PyFileDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".FileDescriptor", // tp_name sizeof(PyFileDescriptor), // tp_basicsize 0, // tp_itemsize (destructor)file_descriptor::Dealloc, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A File Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext file_descriptor::Methods, // tp_methods 0, // tp_members file_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base 0, // tp_dict 0, // tp_descr_get 0, // tp_descr_set 0, // tp_dictoffset 0, // tp_init 0, // tp_alloc 0, // tp_new PyObject_Del, // tp_free }; PyObject* PyFileDescriptor_FromDescriptor( const FileDescriptor* file_descriptor) { return PyFileDescriptor_FromDescriptorWithSerializedPb(file_descriptor, NULL); } PyObject* PyFileDescriptor_FromDescriptorWithSerializedPb( const FileDescriptor* file_descriptor, PyObject *serialized_pb) { bool was_created; PyObject* py_descriptor = descriptor::NewInternedDescriptor( &PyFileDescriptor_Type, file_descriptor, &was_created); if (py_descriptor == NULL) { return NULL; } if (was_created) { PyFileDescriptor* cfile_descriptor = reinterpret_cast(py_descriptor); Py_XINCREF(serialized_pb); cfile_descriptor->serialized_pb = serialized_pb; } // TODO(amauryfa): In the case of a cached object, check that serialized_pb // is the same as before. return py_descriptor; } const FileDescriptor* PyFileDescriptor_AsDescriptor(PyObject* obj) { if (!PyObject_TypeCheck(obj, &PyFileDescriptor_Type)) { PyErr_SetString(PyExc_TypeError, "Not a FileDescriptor"); return NULL; } return reinterpret_cast( reinterpret_cast(obj)->descriptor); } namespace oneof_descriptor { // Unchecked accessor to the C++ pointer. static const OneofDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetIndex(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->index()); } static PyObject* GetFields(PyBaseDescriptor* self, void *closure) { return NewOneofFieldsSeq(_GetDescriptor(self)); } static PyObject* GetContainingType(PyBaseDescriptor *self, void *closure) { const Descriptor* containing_type = _GetDescriptor(self)->containing_type(); if (containing_type) { return PyMessageDescriptor_FromDescriptor(containing_type); } else { Py_RETURN_NONE; } } static PyObject* GetHasOptions(PyBaseDescriptor *self, void *closure) { const OneofOptions& options(_GetDescriptor(self)->options()); if (&options != &OneofOptions::default_instance()) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int SetHasOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("has_options"); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static int SetOptions(PyBaseDescriptor *self, PyObject *value, void *closure) { return CheckCalledFromGeneratedFile("_options"); } static PyGetSetDef Getters[] = { { "name", (getter)GetName, NULL, "Name"}, { "full_name", (getter)GetFullName, NULL, "Full name"}, { "index", (getter)GetIndex, NULL, "Index"}, { "containing_type", (getter)GetContainingType, NULL, "Containing type"}, { "has_options", (getter)GetHasOptions, (setter)SetHasOptions, "Has Options"}, { "_options", (getter)NULL, (setter)SetOptions, "Options"}, { "fields", (getter)GetFields, NULL, "Fields"}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS }, {NULL} }; } // namespace oneof_descriptor PyTypeObject PyOneofDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".OneofDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Oneof Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext oneof_descriptor::Methods, // tp_methods 0, // tp_members oneof_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyOneofDescriptor_FromDescriptor( const OneofDescriptor* oneof_descriptor) { return descriptor::NewInternedDescriptor( &PyOneofDescriptor_Type, oneof_descriptor, NULL); } namespace service_descriptor { // Unchecked accessor to the C++ pointer. static const ServiceDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetIndex(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->index()); } static PyObject* GetMethods(PyBaseDescriptor* self, void *closure) { return NewServiceMethodsSeq(_GetDescriptor(self)); } static PyObject* GetMethodsByName(PyBaseDescriptor* self, void *closure) { return NewServiceMethodsByName(_GetDescriptor(self)); } static PyObject* FindMethodByName(PyBaseDescriptor *self, PyObject* arg) { Py_ssize_t name_size; char* name; if (PyString_AsStringAndSize(arg, &name, &name_size) < 0) { return NULL; } const MethodDescriptor* method_descriptor = _GetDescriptor(self)->FindMethodByName(string(name, name_size)); if (method_descriptor == NULL) { PyErr_Format(PyExc_KeyError, "Couldn't find method %.200s", name); return NULL; } return PyMethodDescriptor_FromDescriptor(method_descriptor); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static PyObject* CopyToProto(PyBaseDescriptor *self, PyObject *target) { return CopyToPythonProto(_GetDescriptor(self), target); } static PyGetSetDef Getters[] = { { "name", (getter)GetName, NULL, "Name", NULL}, { "full_name", (getter)GetFullName, NULL, "Full name", NULL}, { "index", (getter)GetIndex, NULL, "Index", NULL}, { "methods", (getter)GetMethods, NULL, "Methods", NULL}, { "methods_by_name", (getter)GetMethodsByName, NULL, "Methods by name", NULL}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS }, { "CopyToProto", (PyCFunction)CopyToProto, METH_O, }, { "FindMethodByName", (PyCFunction)FindMethodByName, METH_O }, {NULL} }; } // namespace service_descriptor PyTypeObject PyServiceDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".ServiceDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Service Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext service_descriptor::Methods, // tp_methods 0, // tp_members service_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyServiceDescriptor_FromDescriptor( const ServiceDescriptor* service_descriptor) { return descriptor::NewInternedDescriptor( &PyServiceDescriptor_Type, service_descriptor, NULL); } namespace method_descriptor { // Unchecked accessor to the C++ pointer. static const MethodDescriptor* _GetDescriptor( PyBaseDescriptor *self) { return reinterpret_cast(self->descriptor); } static PyObject* GetName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->name()); } static PyObject* GetFullName(PyBaseDescriptor* self, void *closure) { return PyString_FromCppString(_GetDescriptor(self)->full_name()); } static PyObject* GetIndex(PyBaseDescriptor *self, void *closure) { return PyInt_FromLong(_GetDescriptor(self)->index()); } static PyObject* GetContainingService(PyBaseDescriptor *self, void *closure) { const ServiceDescriptor* containing_service = _GetDescriptor(self)->service(); return PyServiceDescriptor_FromDescriptor(containing_service); } static PyObject* GetInputType(PyBaseDescriptor *self, void *closure) { const Descriptor* input_type = _GetDescriptor(self)->input_type(); return PyMessageDescriptor_FromDescriptor(input_type); } static PyObject* GetOutputType(PyBaseDescriptor *self, void *closure) { const Descriptor* output_type = _GetDescriptor(self)->output_type(); return PyMessageDescriptor_FromDescriptor(output_type); } static PyObject* GetOptions(PyBaseDescriptor *self) { return GetOrBuildOptions(_GetDescriptor(self)); } static PyObject* CopyToProto(PyBaseDescriptor *self, PyObject *target) { return CopyToPythonProto(_GetDescriptor(self), target); } static PyGetSetDef Getters[] = { { "name", (getter)GetName, NULL, "Name", NULL}, { "full_name", (getter)GetFullName, NULL, "Full name", NULL}, { "index", (getter)GetIndex, NULL, "Index", NULL}, { "containing_service", (getter)GetContainingService, NULL, "Containing service", NULL}, { "input_type", (getter)GetInputType, NULL, "Input type", NULL}, { "output_type", (getter)GetOutputType, NULL, "Output type", NULL}, {NULL} }; static PyMethodDef Methods[] = { { "GetOptions", (PyCFunction)GetOptions, METH_NOARGS, }, { "CopyToProto", (PyCFunction)CopyToProto, METH_O, }, {NULL} }; } // namespace method_descriptor PyTypeObject PyMethodDescriptor_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) FULL_MODULE_NAME ".MethodDescriptor", // tp_name sizeof(PyBaseDescriptor), // tp_basicsize 0, // tp_itemsize 0, // tp_dealloc 0, // tp_print 0, // tp_getattr 0, // tp_setattr 0, // tp_compare 0, // tp_repr 0, // tp_as_number 0, // tp_as_sequence 0, // tp_as_mapping 0, // tp_hash 0, // tp_call 0, // tp_str 0, // tp_getattro 0, // tp_setattro 0, // tp_as_buffer Py_TPFLAGS_DEFAULT, // tp_flags "A Method Descriptor", // tp_doc 0, // tp_traverse 0, // tp_clear 0, // tp_richcompare 0, // tp_weaklistoffset 0, // tp_iter 0, // tp_iternext method_descriptor::Methods, // tp_methods 0, // tp_members method_descriptor::Getters, // tp_getset &descriptor::PyBaseDescriptor_Type, // tp_base }; PyObject* PyMethodDescriptor_FromDescriptor( const MethodDescriptor* method_descriptor) { return descriptor::NewInternedDescriptor( &PyMethodDescriptor_Type, method_descriptor, NULL); } // Add a enum values to a type dictionary. static bool AddEnumValues(PyTypeObject *type, const EnumDescriptor* enum_descriptor) { for (int i = 0; i < enum_descriptor->value_count(); ++i) { const EnumValueDescriptor* value = enum_descriptor->value(i); ScopedPyObjectPtr obj(PyInt_FromLong(value->number())); if (obj == NULL) { return false; } if (PyDict_SetItemString(type->tp_dict, value->name().c_str(), obj.get()) < 0) { return false; } } return true; } static bool AddIntConstant(PyTypeObject *type, const char* name, int value) { ScopedPyObjectPtr obj(PyInt_FromLong(value)); if (PyDict_SetItemString(type->tp_dict, name, obj.get()) < 0) { return false; } return true; } bool InitDescriptor() { if (PyType_Ready(&PyMessageDescriptor_Type) < 0) return false; if (PyType_Ready(&PyFieldDescriptor_Type) < 0) return false; if (!AddEnumValues(&PyFieldDescriptor_Type, FieldDescriptorProto::Label_descriptor())) { return false; } if (!AddEnumValues(&PyFieldDescriptor_Type, FieldDescriptorProto::Type_descriptor())) { return false; } #define ADD_FIELDDESC_CONSTANT(NAME) AddIntConstant( \ &PyFieldDescriptor_Type, #NAME, FieldDescriptor::NAME) if (!ADD_FIELDDESC_CONSTANT(CPPTYPE_INT32) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_INT64) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_UINT32) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_UINT64) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_DOUBLE) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_FLOAT) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_BOOL) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_ENUM) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_STRING) || !ADD_FIELDDESC_CONSTANT(CPPTYPE_MESSAGE)) { return false; } #undef ADD_FIELDDESC_CONSTANT if (PyType_Ready(&PyEnumDescriptor_Type) < 0) return false; if (PyType_Ready(&PyEnumValueDescriptor_Type) < 0) return false; if (PyType_Ready(&PyFileDescriptor_Type) < 0) return false; if (PyType_Ready(&PyOneofDescriptor_Type) < 0) return false; if (PyType_Ready(&PyServiceDescriptor_Type) < 0) return false; if (PyType_Ready(&PyMethodDescriptor_Type) < 0) return false; if (!InitDescriptorMappingTypes()) return false; return true; } } // namespace python } // namespace protobuf } // namespace google