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// Protocol Buffers - Google's data interchange format
// Copyright 2023 Google LLC. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#ifndef PYUPB_PROTOBUF_H__
#define PYUPB_PROTOBUF_H__
#include <stdbool.h>
#include "python/descriptor.h"
#include "python/python_api.h"
#include "upb/hash/int_table.h"
// begin:github_only
#define PYUPB_PROTOBUF_PUBLIC_PACKAGE "google.protobuf"
#define PYUPB_PROTOBUF_INTERNAL_PACKAGE "google.protobuf.internal"
#define PYUPB_DESCRIPTOR_PROTO_PACKAGE "google.protobuf"
#define PYUPB_MODULE_NAME "google._upb._message"
// end:github_only
// begin:google_only
// #define PYUPB_PROTOBUF_PUBLIC_PACKAGE "google3.net.google.protobuf.python.public"
// #define PYUPB_PROTOBUF_INTERNAL_PACKAGE "google3.net.google.protobuf.python.internal"
// #define PYUPB_DESCRIPTOR_PROTO_PACKAGE "proto2"
// #define PYUPB_MODULE_NAME "google3.third_party.upb.python._message"
// end:google_only
#define PYUPB_DESCRIPTOR_MODULE "google.protobuf.descriptor_pb2"
#define PYUPB_RETURN_OOM return PyErr_SetNone(PyExc_MemoryError), NULL
struct PyUpb_WeakMap;
typedef struct PyUpb_WeakMap PyUpb_WeakMap;
// -----------------------------------------------------------------------------
// ModuleState
// -----------------------------------------------------------------------------
// We store all "global" state in this struct instead of using (C) global
// variables. This makes this extension compatible with sub-interpreters.
typedef struct {
// From descriptor.c
PyTypeObject* descriptor_types[kPyUpb_Descriptor_Count];
// From descriptor_containers.c
PyTypeObject* by_name_map_type;
PyTypeObject* by_name_iterator_type;
PyTypeObject* by_number_map_type;
PyTypeObject* by_number_iterator_type;
PyTypeObject* generic_sequence_type;
// From descriptor_pool.c
PyObject* default_pool;
// From descriptor_pool.c
PyTypeObject* descriptor_pool_type;
upb_DefPool* c_descriptor_symtab;
// From extension_dict.c
PyTypeObject* extension_dict_type;
PyTypeObject* extension_iterator_type;
// From map.c
PyTypeObject* map_iterator_type;
PyTypeObject* message_map_container_type;
PyTypeObject* scalar_map_container_type;
// From message.c
PyObject* decode_error_class;
PyObject* descriptor_string;
PyObject* encode_error_class;
PyObject* enum_type_wrapper_class;
PyObject* message_class;
PyTypeObject* cmessage_type;
PyTypeObject* message_meta_type;
PyObject* listfields_item_key;
// From protobuf.c
bool allow_oversize_protos;
PyObject* wkt_bases;
PyTypeObject* arena_type;
PyUpb_WeakMap* obj_cache;
// From repeated.c
PyTypeObject* repeated_composite_container_type;
PyTypeObject* repeated_scalar_container_type;
// From unknown_fields.c
PyTypeObject* unknown_fields_type;
PyObject* unknown_field_type;
} PyUpb_ModuleState;
// Returns the global state object from the current interpreter. The current
// interpreter is looked up from thread-local state.
PyUpb_ModuleState* PyUpb_ModuleState_Get(void);
PyUpb_ModuleState* PyUpb_ModuleState_GetFromModule(PyObject* module);
// Returns NULL if module state is not yet available (during startup).
// Any use of the module state during startup needs to be passed explicitly.
PyUpb_ModuleState* PyUpb_ModuleState_MaybeGet(void);
// Returns:
// from google.protobuf.internal.well_known_types import WKTBASES
//
// This has to be imported lazily rather than at module load time, because
// otherwise it would cause a circular import.
PyObject* PyUpb_GetWktBases(PyUpb_ModuleState* state);
// -----------------------------------------------------------------------------
// WeakMap
// -----------------------------------------------------------------------------
// A WeakMap maps C pointers to the corresponding Python wrapper object. We
// want a consistent Python wrapper object for each C object, both to save
// memory and to provide object stability (ie. x is x).
//
// Each wrapped object should add itself to the map when it is constructed and
// remove itself from the map when it is destroyed. The map is weak so it does
// not take references to the cached objects.
PyUpb_WeakMap* PyUpb_WeakMap_New(void);
void PyUpb_WeakMap_Free(PyUpb_WeakMap* map);
// Adds the given object to the map, indexed by the given key.
void PyUpb_WeakMap_Add(PyUpb_WeakMap* map, const void* key, PyObject* py_obj);
// Removes the given key from the cache. It must exist in the cache currently.
void PyUpb_WeakMap_Delete(PyUpb_WeakMap* map, const void* key);
void PyUpb_WeakMap_TryDelete(PyUpb_WeakMap* map, const void* key);
// Returns a new reference to an object if it exists, otherwise returns NULL.
PyObject* PyUpb_WeakMap_Get(PyUpb_WeakMap* map, const void* key);
#define PYUPB_WEAKMAP_BEGIN UPB_INTTABLE_BEGIN
// Iteration over the weak map, eg.
//
// intptr_t it = PYUPB_WEAKMAP_BEGIN;
// while (PyUpb_WeakMap_Next(map, &key, &obj, &it)) {
// // ...
// }
//
// Note that the callee does not own a ref on the returned `obj`.
bool PyUpb_WeakMap_Next(PyUpb_WeakMap* map, const void** key, PyObject** obj,
intptr_t* iter);
void PyUpb_WeakMap_DeleteIter(PyUpb_WeakMap* map, intptr_t* iter);
// -----------------------------------------------------------------------------
// ObjCache
// -----------------------------------------------------------------------------
// The object cache is a global WeakMap for mapping upb objects to the
// corresponding wrapper.
void PyUpb_ObjCache_Add(const void* key, PyObject* py_obj);
void PyUpb_ObjCache_Delete(const void* key);
PyObject* PyUpb_ObjCache_Get(const void* key); // returns NULL if not present.
PyUpb_WeakMap* PyUpb_ObjCache_Instance(void);
// -----------------------------------------------------------------------------
// Arena
// -----------------------------------------------------------------------------
PyObject* PyUpb_Arena_New(void);
upb_Arena* PyUpb_Arena_Get(PyObject* arena);
// -----------------------------------------------------------------------------
// Utilities
// -----------------------------------------------------------------------------
PyTypeObject* AddObject(PyObject* m, const char* name, PyType_Spec* spec);
// Creates a Python type from `spec` and adds it to the given module `m`.
PyTypeObject* PyUpb_AddClass(PyObject* m, PyType_Spec* spec);
// Like PyUpb_AddClass(), but allows you to specify a tuple of base classes
// in `bases`.
PyTypeObject* PyUpb_AddClassWithBases(PyObject* m, PyType_Spec* spec,
PyObject* bases);
// A function that implements the tp_new slot for types that we do not allow
// users to create directly. This will immediately fail with an error message.
PyObject* PyUpb_Forbidden_New(PyObject* cls, PyObject* args, PyObject* kwds);
// Our standard dealloc func. It follows the guidance defined in:
// https://docs.python.org/3/c-api/typeobj.html#c.PyTypeObject.tp_dealloc
// However it tests Py_TPFLAGS_HEAPTYPE dynamically so that a single dealloc
// function can work for any type.
static inline void PyUpb_Dealloc(void* self) {
PyTypeObject* tp = Py_TYPE(self);
assert(PyType_GetFlags(tp) & Py_TPFLAGS_HEAPTYPE);
freefunc tp_free = (freefunc)PyType_GetSlot(tp, Py_tp_free);
tp_free(self);
Py_DECREF(tp);
}
// Equivalent to the Py_NewRef() function introduced in Python 3.10. If/when we
// drop support for Python <3.10, we can remove this function and replace all
// callers with Py_NewRef().
static inline PyObject* PyUpb_NewRef(PyObject* obj) {
Py_INCREF(obj);
return obj;
}
const char* PyUpb_GetStrData(PyObject* obj);
const char* PyUpb_VerifyStrData(PyObject* obj);
// For an expression like:
// foo[index]
//
// Converts `index` to an effective i/count/step, for a repeated field
// or descriptor sequence of size 'size'.
bool PyUpb_IndexToRange(PyObject* index, Py_ssize_t size, Py_ssize_t* i,
Py_ssize_t* count, Py_ssize_t* step);
#endif // PYUPB_PROTOBUF_H__