/* SPDX-FileCopyrightText: 2023 Blender Authors * * SPDX-License-Identifier: GPL-2.0-or-later */ /** \file * \ingroup pythonintern * * This file exposed blend file library appending/linking to python, typically * this would be done via RNA API but in this case a hand written Python API * allows us to use Python's context manager (`__enter__` and `__exit__`). * * Everything here is exposed via `bpy.data.libraries.load(...)` which returns * a context manager. */ #include #include #include "BLI_linklist.h" #include "BLI_math_vector_types.hh" #include "BLI_path_utils.hh" #include "BLI_string.h" #include "BLI_utildefines.h" #include "BKE_blender_version.h" #include "BKE_blendfile_link_append.hh" #include "BKE_context.hh" #include "BKE_idtype.hh" #include "BKE_lib_id.hh" #include "BKE_main.hh" #include "BKE_report.hh" #include "DNA_space_types.h" /* FILE_LINK, FILE_RELPATH */ #include "BLO_readfile.hh" #include "bpy_capi_utils.hh" #include "bpy_library.hh" #include "../generic/py_capi_utils.hh" #include "../generic/python_compat.hh" /* IWYU pragma: keep. */ #include "../generic/python_utildefines.hh" /* nifty feature. swap out strings for RNA data */ #define USE_RNA_DATABLOCKS #ifdef USE_RNA_DATABLOCKS # include "RNA_access.hh" # include "bpy_rna.hh" #endif /* -------------------------------------------------------------------- */ /** \name Internal Utilities * \{ */ struct BoolFlagPair { bool value; uint32_t flag; }; static uint32_t bool_flag_pair_as_flag(const BoolFlagPair *bool_flags, int bool_flags_num) { uint32_t flag = 0; for (int i = 0; i < bool_flags_num; i++) { BLI_assert(bool_flags[i].flag); if (bool_flags[i].value) { flag |= bool_flags[i].flag; } } return flag; } /** \} */ /** * The size to pre-allocate #BPy_Library::dict Add +1 for the "version". */ static constexpr Py_ssize_t bpy_library_dict_num = INDEX_ID_MAX + 1; struct BPy_Library { /** Required Python macro. */ PyObject_HEAD /** The path supplied by the caller (may be relative). */ char relpath[FILE_MAX]; /** The absolute path. */ char abspath[FILE_MAX]; BlendHandle *blo_handle; /** Referenced by `blo_handle`, so stored here to keep alive for long enough. */ ReportList reports; BlendFileReadReport bf_reports; int flag; bool create_liboverrides; eBKELibLinkOverride liboverride_flags; /** * A dictionary, accessed via attributes (so keys are strings). * - Stores the ID types ("meshes", "objects", etc...). * - Also has a "version" attribute to support accessing the blender version. * * Assigned a pre-sized dictionary using #BPY_LIBRARY_DICT_NUM_INIT item. * this will always have these the ID names and some additional slots filled. */ PyObject *dict; /** * Borrowed reference to the `bmain`, taken from the RNA instance of #RNA_BlendDataLibraries. * Defaults to #G.main, Otherwise use a temporary #Main when `bmain_is_temp` is true. */ Main *bmain; bool bmain_is_temp; }; static PyObject *bpy_lib_load(BPy_PropertyRNA *self, PyObject *args, PyObject *kw); static PyObject *bpy_lib_enter(BPy_Library *self); static PyObject *bpy_lib_exit(BPy_Library *self, PyObject *args); static PyObject *bpy_lib_dir(BPy_Library *self); #ifdef __GNUC__ # ifdef __clang__ # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wcast-function-type" # else # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wcast-function-type" # endif #endif static PyMethodDef bpy_lib_methods[] = { {"__enter__", (PyCFunction)bpy_lib_enter, METH_NOARGS}, {"__exit__", (PyCFunction)bpy_lib_exit, METH_VARARGS}, {"__dir__", (PyCFunction)bpy_lib_dir, METH_NOARGS}, {nullptr} /* sentinel */ }; #ifdef __GNUC__ # ifdef __clang__ # pragma clang diagnostic pop # else # pragma GCC diagnostic pop # endif #endif static void bpy_lib_dealloc(BPy_Library *self) { Py_XDECREF(self->dict); Py_TYPE(self)->tp_free(self); } static PyTypeObject bpy_lib_Type = { /*ob_base*/ PyVarObject_HEAD_INIT(nullptr, 0) /*tp_name*/ "bpy_lib", /*tp_basicsize*/ sizeof(BPy_Library), /*tp_itemsize*/ 0, /*tp_dealloc*/ (destructor)bpy_lib_dealloc, /*tp_vectorcall_offset*/ 0, /*tp_getattr*/ nullptr, /*tp_setattr*/ nullptr, /*tp_as_async*/ nullptr, /*tp_repr*/ nullptr, /*tp_as_number*/ nullptr, /*tp_as_sequence*/ nullptr, /*tp_as_mapping*/ nullptr, /*tp_hash*/ nullptr, /*tp_call*/ nullptr, /*tp_str*/ nullptr, /*tp_getattro*/ PyObject_GenericGetAttr, /*tp_setattro*/ nullptr, /*tp_as_buffer*/ nullptr, /*tp_flags*/ Py_TPFLAGS_DEFAULT, /*tp_doc*/ nullptr, /*tp_traverse*/ nullptr, /*tp_clear*/ nullptr, /*tp_richcompare*/ nullptr, /*tp_weaklistoffset*/ 0, /*tp_iter*/ nullptr, /*tp_iternext*/ nullptr, /*tp_methods*/ bpy_lib_methods, /*tp_members*/ nullptr, /*tp_getset*/ nullptr, /*tp_base*/ nullptr, /*tp_dict*/ nullptr, /*tp_descr_get*/ nullptr, /*tp_descr_set*/ nullptr, /*tp_dictoffset*/ offsetof(BPy_Library, dict), /*tp_init*/ nullptr, /*tp_alloc*/ nullptr, /*tp_new*/ nullptr, /*tp_free*/ nullptr, /*tp_is_gc*/ nullptr, /*tp_bases*/ nullptr, /*tp_mro*/ nullptr, /*tp_cache*/ nullptr, /*tp_subclasses*/ nullptr, /*tp_weaklist*/ nullptr, /*tp_del*/ nullptr, /*tp_version_tag*/ 0, /*tp_finalize*/ nullptr, /*tp_vectorcall*/ nullptr, }; PyDoc_STRVAR( /* Wrap. */ bpy_lib_load_doc, ".. method:: load(" "filepath, " "*, " "link=False, " "relative=False, " "set_fake=False, " "recursive=False, " "reuse_local_id=False, " "assets_only=False, " "clear_asset_data=False, " "create_liboverrides=False, " "reuse_liboverrides=False, " "create_liboverrides_runtime=False)\n" "\n" " Returns a context manager which exposes 2 library objects on entering.\n" " Each object has attributes matching bpy.data which are lists of strings to be linked.\n" "\n" " :arg filepath: The path to a blend file.\n" " :type filepath: str | bytes\n" " :arg link: When False reference to the original file is lost.\n" " :type link: bool\n" " :arg pack: If True, and ``link`` is also True, pack linked data-blocks into the current " "blend-file.\n" " :type pack: bool\n" " :arg relative: When True the path is stored relative to the open blend file.\n" " :type relative: bool\n" " :arg set_fake: If True, set fake user on appended IDs.\n" " :type set_fake: bool\n" " :arg recursive: If True, also make indirect dependencies of appended libraries local.\n" " :type recursive: bool\n" " :arg reuse_local_id: If True," "try to re-use previously appended matching ID on new append.\n" " :type reuse_local_id: bool\n" " :arg assets_only: If True, only list data-blocks marked as assets.\n" " :type assets_only: bool\n" " :arg clear_asset_data: If True, " "clear the asset data on append (it is always kept for linked data).\n" " :type clear_asset_data: bool\n" " :arg create_liboverrides: If True and ``link`` is True, liboverrides will\n" " be created for linked data.\n" " :type create_liboverrides: bool\n" " :arg reuse_liboverrides: If True and ``create_liboverride`` is True,\n" " search for existing liboverride first.\n" " :type reuse_liboverrides: bool\n" " :arg create_liboverrides_runtime: If True and ``create_liboverride`` is True,\n" " create (or search for existing) runtime liboverride.\n" " :type create_liboverrides_runtime: bool\n"); static PyObject *bpy_lib_load(BPy_PropertyRNA *self, PyObject *args, PyObject *kw) { Main *bmain_base = CTX_data_main(BPY_context_get()); Main *bmain = static_cast
(self->ptr->data); /* Typically #G_MAIN */ BPy_Library *ret; PyC_UnicodeAsBytesAndSize_Data filepath_data = {nullptr}; /* #BPy_Library::flag * * - #BLO_LIBLINK_OBDATA_INSTANCE: The caller must manage instancing. * - #BLO_LIBLINK_COLLECTION_INSTANCE: The caller must manage instancing. */ struct { BoolFlagPair is_link = {false, FILE_LINK}; BoolFlagPair is_pack = {false, BLO_LIBLINK_PACK}; BoolFlagPair is_relative = {false, FILE_RELPATH}; BoolFlagPair set_fake = {false, BLO_LIBLINK_APPEND_SET_FAKEUSER}; BoolFlagPair recursive = {false, BLO_LIBLINK_APPEND_RECURSIVE}; BoolFlagPair reuse_local_id = {false, BLO_LIBLINK_APPEND_LOCAL_ID_REUSE}; BoolFlagPair assets_only = {false, FILE_ASSETS_ONLY}; BoolFlagPair clear_asset_data = {false, BLO_LIBLINK_APPEND_ASSET_DATA_CLEAR}; } flag_vars; bool create_liboverrides = false; /* #BPy_Library::liboverride_flags */ struct { BoolFlagPair reuse_liboverrides = {false, BKE_LIBLINK_OVERRIDE_USE_EXISTING_LIBOVERRIDES}; BoolFlagPair create_liboverrides_runtime = {false, BKE_LIBLINK_OVERRIDE_CREATE_RUNTIME}; } liboverride_flag_vars; static const char *_keywords[] = { "filepath", "link", "pack", "relative", "set_fake", "recursive", "reuse_local_id", "assets_only", "clear_asset_data", "create_liboverrides", "reuse_liboverrides", "create_liboverrides_runtime", nullptr, }; static _PyArg_Parser _parser = { PY_ARG_PARSER_HEAD_COMPAT() "O&" /* `filepath` */ /* Optional keyword only arguments. */ "|$" "O&" /* `link` */ "O&" /* `pack` */ "O&" /* `relative` */ "O&" /* `recursive` */ "O&" /* `set_fake` */ "O&" /* `reuse_local_id` */ "O&" /* `assets_only` */ "O&" /* `clear_asset_data` */ "O&" /* `create_liboverrides` */ "O&" /* `reuse_liboverrides` */ "O&" /* `create_liboverrides_runtime` */ ":load", _keywords, nullptr, }; if (!_PyArg_ParseTupleAndKeywordsFast(args, kw, &_parser, PyC_ParseUnicodeAsBytesAndSize, &filepath_data, PyC_ParseBool, &flag_vars.is_link, PyC_ParseBool, &flag_vars.is_pack, PyC_ParseBool, &flag_vars.is_relative, PyC_ParseBool, &flag_vars.recursive, PyC_ParseBool, &flag_vars.set_fake, PyC_ParseBool, &flag_vars.reuse_local_id, PyC_ParseBool, &flag_vars.assets_only, PyC_ParseBool, &flag_vars.clear_asset_data, PyC_ParseBool, &create_liboverrides, PyC_ParseBool, &liboverride_flag_vars.reuse_liboverrides, PyC_ParseBool, &liboverride_flag_vars.create_liboverrides_runtime)) { return nullptr; } const char *blendfile_path = BKE_main_blendfile_path(bmain); char filepath_rel[FILE_MAX]; char filepath_abs[FILE_MAX]; STRNCPY(filepath_rel, filepath_data.value); STRNCPY(filepath_abs, filepath_rel); BLI_path_abs(filepath_abs, blendfile_path); Py_XDECREF(filepath_data.value_coerce); if (blendfile_path[0]) { /* NOTE: intentionally leave `filepath_abs` and only use normalizing for comparison. * It's important that this comparison matches read-files logic for matching paths. * See the logic inside #BKE_blendfile_link. * * This means it's not necessary to check if the paths are *actually* the same. * It's possible to load from this file if a user makes a symbolic-link - for example. * See #140929. */ char filepath_abs_normalized[FILE_MAX]; STRNCPY(filepath_abs_normalized, filepath_abs); BLI_path_normalize(filepath_abs_normalized); if (BLI_path_cmp(filepath_abs_normalized, blendfile_path) == 0) { PyErr_SetString(PyExc_ValueError, "Cannot load from the current blend file."); return nullptr; } } if (flag_vars.is_link.value) { /* Link. */ if (flag_vars.set_fake.value) { PyErr_SetString(PyExc_ValueError, "`link` must be False if `set_fake` is True"); return nullptr; } if (flag_vars.recursive.value) { PyErr_SetString(PyExc_ValueError, "`link` must be False if `recursive` is True"); return nullptr; } if (flag_vars.reuse_local_id.value) { PyErr_SetString(PyExc_ValueError, "`link` must be False if `reuse_local_id` is True"); return nullptr; } if (flag_vars.clear_asset_data.value) { PyErr_SetString(PyExc_ValueError, "`link` must be False if `clear_asset_data` is True"); return nullptr; } } else { /* Append. */ if (create_liboverrides) { PyErr_SetString(PyExc_ValueError, "`link` is False but `create_liboverrides` is True"); return nullptr; } if (flag_vars.is_pack.value) { PyErr_SetString(PyExc_ValueError, "`pack` must be False if `link` is False"); return nullptr; } } if (create_liboverrides) { /* Library overrides. */ if (flag_vars.is_pack.value) { PyErr_SetString(PyExc_ValueError, "`create_liboverrides` must be False if `pack` is True"); return nullptr; } } else { /* Library overrides (disabled). */ if (liboverride_flag_vars.reuse_liboverrides.value) { PyErr_SetString(PyExc_ValueError, "`create_liboverrides` is False but `reuse_liboverrides` is True"); return nullptr; } if (liboverride_flag_vars.create_liboverrides_runtime.value) { PyErr_SetString(PyExc_ValueError, "`create_liboverrides` is False but `create_liboverrides_runtime` is True"); return nullptr; } } ret = PyObject_New(BPy_Library, &bpy_lib_Type); STRNCPY(ret->relpath, filepath_rel); STRNCPY(ret->abspath, filepath_abs); ret->bmain = bmain; ret->bmain_is_temp = (bmain != bmain_base); ret->blo_handle = nullptr; ret->flag = bool_flag_pair_as_flag(reinterpret_cast(&flag_vars), sizeof(flag_vars) / sizeof(BoolFlagPair)); ret->create_liboverrides = create_liboverrides; ret->liboverride_flags = create_liboverrides ? eBKELibLinkOverride(bool_flag_pair_as_flag( reinterpret_cast(&liboverride_flag_vars), sizeof(liboverride_flag_vars) / sizeof(BoolFlagPair))) : eBKELibLinkOverride(0); ret->dict = _PyDict_NewPresized(bpy_library_dict_num); return (PyObject *)ret; } static PyObject *_bpy_names(BPy_Library *self, int blocktype) { int names_num; LinkNode *names = BLO_blendhandle_get_datablock_names( self->blo_handle, blocktype, (self->flag & FILE_ASSETS_ONLY) != 0, &names_num); PyObject *list = PyList_New(names_num); if (names) { int i = 0; for (LinkNode *l = names; l; l = l->next, i++) { PyList_SET_ITEM(list, i, PyUnicode_FromString((char *)l->link)); } BLI_linklist_freeN(names); /* free linklist *and* each node's data */ } return list; } static PyObject *bpy_lib_enter(BPy_Library *self) { ReportList *reports = &self->reports; BlendFileReadReport *bf_reports = &self->bf_reports; BKE_reports_init(reports, RPT_STORE | RPT_PRINT_HANDLED_BY_OWNER); memset(bf_reports, 0, sizeof(*bf_reports)); bf_reports->reports = reports; self->blo_handle = BLO_blendhandle_from_file(self->abspath, bf_reports); if (self->blo_handle == nullptr) { if (BPy_reports_to_error(reports, PyExc_IOError, true) != -1) { PyErr_Format(PyExc_IOError, "load: %s failed to open blend file", self->abspath); } return nullptr; } PyObject *dict_src = _PyDict_NewPresized(bpy_library_dict_num); PyObject *dict_dst = self->dict; /* Only for convenience (always `self->dict`). */ int dict_num_offset = 0; int i = 0, code; while ((code = BKE_idtype_idcode_iter_step(&i))) { if (!BKE_idtype_idcode_is_linkable(code)) { dict_num_offset += 1; continue; } const char *name_plural = BKE_idtype_idcode_to_name_plural(code); PyObject *str = PyUnicode_FromString(name_plural); PyObject *item; PyDict_SetItem(dict_dst, str, item = PyList_New(0)); Py_DECREF(item); PyDict_SetItem(dict_src, str, item = _bpy_names(self, code)); Py_DECREF(item); Py_DECREF(str); } /* Create a dummy. */ BPy_Library *self_src = PyObject_New(BPy_Library, &bpy_lib_Type); STRNCPY(self_src->relpath, self->relpath); STRNCPY(self_src->abspath, self->abspath); /* Library blend-file version. */ { PyObject *version; PyObject *identifier = PyUnicode_FromString("version"); blender::int3 blendfile_version; /* Source. */ blendfile_version = BLO_blendhandle_get_version(self->blo_handle); version = PyC_Tuple_PackArray_I32(&blendfile_version[0], 3); PyDict_SetItem(dict_src, identifier, version); Py_DECREF(version); /* Destination. */ blendfile_version = blender::int3( BLENDER_FILE_VERSION / 100, BLENDER_FILE_VERSION % 100, BLENDER_FILE_SUBVERSION); version = PyC_Tuple_PackArray_I32(&blendfile_version[0], 3); PyDict_SetItem(dict_dst, identifier, version); Py_DECREF(version); Py_DECREF(identifier); } self_src->blo_handle = nullptr; self_src->flag = 0; self_src->create_liboverrides = false; self_src->liboverride_flags = BKE_LIBLINK_OVERRIDE_INIT; self_src->dict = dict_src; /* owns the dict */ /* While it's not a bug if the sizes differ, the size is expected to match. * Ensure `bpy_library_dict_num` gets updated when members are added. */ BLI_assert(PyDict_GET_SIZE(self_src->dict) + dict_num_offset == bpy_library_dict_num); BLI_assert(PyDict_GET_SIZE(self->dict) + dict_num_offset == bpy_library_dict_num); UNUSED_VARS_NDEBUG(dict_num_offset); BKE_reports_clear(reports); /* Return a pair. */ PyObject *ret = PyTuple_New(2); PyTuple_SET_ITEMS(ret, (PyObject *)self_src, Py_NewRef((PyObject *)self)); return ret; } static void bpy_lib_exit_warn_idname(BPy_Library *self, const char *name_plural, const char *idname) { PyObject *exc, *val, *tb; PyErr_Fetch(&exc, &val, &tb); if (PyErr_WarnFormat(PyExc_UserWarning, 1, "load: '%s' does not contain %s[\"%s\"]", self->abspath, name_plural, idname)) { /* Spurious errors can appear at shutdown */ if (PyErr_ExceptionMatches(PyExc_Warning)) { PyErr_WriteUnraisable((PyObject *)self); } } PyErr_Restore(exc, val, tb); } static void bpy_lib_exit_warn_type(BPy_Library *self, PyObject *item) { PyObject *exc, *val, *tb; PyErr_Fetch(&exc, &val, &tb); if (PyErr_WarnFormat(PyExc_UserWarning, 1, "load: '%s' expected a string type, not a %.200s", self->abspath, Py_TYPE(item)->tp_name)) { /* Spurious errors can appear at shutdown */ if (PyErr_ExceptionMatches(PyExc_Warning)) { PyErr_WriteUnraisable((PyObject *)self); } } PyErr_Restore(exc, val, tb); } struct LibExitLappContextItemsIterData { short idcode; BPy_Library *py_library; PyObject *py_list; Py_ssize_t py_list_size; }; static bool bpy_lib_exit_lapp_context_items_cb(BlendfileLinkAppendContext *lapp_context, BlendfileLinkAppendContextItem *item, LibExitLappContextItemsIterData &data) { /* Since `bpy_lib_exit` loops over all ID types, all items in `lapp_context` end up being looped * over for each ID type, so when it does not match the item can simply be skipped: it either has * already been processed, or will be processed in a later loop. */ if (BKE_blendfile_link_append_context_item_idcode_get(lapp_context, item) != data.idcode) { return true; } const int py_list_index = POINTER_AS_INT( BKE_blendfile_link_append_context_item_userdata_get(lapp_context, item)); ID *new_id = BKE_blendfile_link_append_context_item_newid_get(lapp_context, item); ID *liboverride_id = data.py_library->create_liboverrides ? BKE_blendfile_link_append_context_item_liboverrideid_get(lapp_context, item) : nullptr; BLI_assert(py_list_index < data.py_list_size); /* Fully invalid items (which got set to `Py_None` already in first loop of `bpy_lib_exit`) * should never be accessed here, since their index should never be set to any item in * `lapp_context`. */ PyObject *item_src = PyList_GET_ITEM(data.py_list, py_list_index); BLI_assert(item_src != Py_None); PyObject *py_item; if (liboverride_id != nullptr) { PointerRNA newid_ptr = RNA_id_pointer_create(liboverride_id); py_item = pyrna_struct_CreatePyObject(&newid_ptr); } else if (new_id != nullptr) { PointerRNA newid_ptr = RNA_id_pointer_create(new_id); py_item = pyrna_struct_CreatePyObject(&newid_ptr); } else { const char *item_idname = PyUnicode_AsUTF8(item_src); const char *idcode_name_plural = BKE_idtype_idcode_to_name_plural(data.idcode); bpy_lib_exit_warn_idname(data.py_library, idcode_name_plural, item_idname); py_item = Py_NewRef(Py_None); } PyList_SET_ITEM(data.py_list, py_list_index, py_item); Py_DECREF(item_src); return true; } static PyObject *bpy_lib_exit(BPy_Library *self, PyObject * /*args*/) { Main *bmain = self->bmain; const bool do_pack = ((self->flag & BLO_LIBLINK_PACK) != 0); const bool do_append = ((self->flag & FILE_LINK) == 0); const bool create_liboverrides = self->create_liboverrides; /* Code in #bpy_lib_load should have raised exception in case of incompatible parameter values. */ BLI_assert(!do_append || !create_liboverrides); BKE_main_id_tag_all(bmain, ID_TAG_PRE_EXISTING, true); /* here appending/linking starts */ const int id_tag_extra = self->bmain_is_temp ? int(ID_TAG_TEMP_MAIN) : 0; LibraryLink_Params liblink_params; BLO_library_link_params_init(&liblink_params, bmain, self->flag, id_tag_extra); BlendfileLinkAppendContext *lapp_context = BKE_blendfile_link_append_context_new( &liblink_params); /* NOTE: Transfers the ownership of the `blo_handle` to the `lapp_context`. */ BKE_blendfile_link_append_context_library_add(lapp_context, self->abspath, self->blo_handle); self->blo_handle = nullptr; int idcode_step = 0; short idcode; while ((idcode = BKE_idtype_idcode_iter_step(&idcode_step))) { if (!BKE_idtype_idcode_is_linkable(idcode) || (idcode == ID_WS && !do_append)) { continue; } const char *name_plural = BKE_idtype_idcode_to_name_plural(idcode); PyObject *ls = PyDict_GetItemString(self->dict, name_plural); // printf("lib: %s\n", name_plural); if (ls == nullptr || !PyList_Check(ls)) { continue; } const Py_ssize_t size = PyList_GET_SIZE(ls); if (size == 0) { continue; } /* loop */ for (Py_ssize_t i = 0; i < size; i++) { PyObject *item_src = PyList_GET_ITEM(ls, i); const char *item_idname = PyUnicode_AsUTF8(item_src); // printf(" %s\n", item_idname); /* NOTE: index of item in py list is stored in userdata pointer, so that it can be found * later on to replace the ID name by the actual ID pointer. */ if (item_idname != nullptr) { BlendfileLinkAppendContextItem *item = BKE_blendfile_link_append_context_item_add( lapp_context, item_idname, idcode, POINTER_FROM_INT(i)); BKE_blendfile_link_append_context_item_library_index_enable(lapp_context, item, 0); } else { /* XXX, could complain about this */ bpy_lib_exit_warn_type(self, item_src); PyErr_Clear(); #ifdef USE_RNA_DATABLOCKS /* We can replace the item immediately with `None`. */ PyObject *py_item = Py_NewRef(Py_None); PyList_SET_ITEM(ls, i, py_item); Py_DECREF(item_src); #endif } } } BKE_blendfile_link_append_context_init_done(lapp_context); BKE_blendfile_link(lapp_context, nullptr); if (do_pack) { BKE_blendfile_link_pack(lapp_context, nullptr); } else if (do_append) { BKE_blendfile_append(lapp_context, nullptr); } else if (create_liboverrides) { BKE_blendfile_override(lapp_context, self->liboverride_flags, nullptr); } BKE_blendfile_link_append_context_finalize(lapp_context); /* If enabled, replace named items in given lists by the final matching new ID pointer. */ #ifdef USE_RNA_DATABLOCKS idcode_step = 0; while ((idcode = BKE_idtype_idcode_iter_step(&idcode_step))) { if (!BKE_idtype_idcode_is_linkable(idcode) || (idcode == ID_WS && !do_append)) { continue; } const char *name_plural = BKE_idtype_idcode_to_name_plural(idcode); PyObject *ls = PyDict_GetItemString(self->dict, name_plural); // printf("lib: %s\n", name_plural); if (ls == nullptr || !PyList_Check(ls)) { continue; } const Py_ssize_t size = PyList_GET_SIZE(ls); if (size == 0) { continue; } /* Loop over linked items in `lapp_context` to find matching python one in the list, and * replace them with proper ID pointer. */ LibExitLappContextItemsIterData iter_data{}; iter_data.idcode = idcode; iter_data.py_library = self; iter_data.py_list = ls; iter_data.py_list_size = size; BKE_blendfile_link_append_context_item_foreach( lapp_context, [&iter_data](BlendfileLinkAppendContext *lapp_context, BlendfileLinkAppendContextItem *item) -> bool { return bpy_lib_exit_lapp_context_items_cb(lapp_context, item, iter_data); }, BKE_BLENDFILE_LINK_APPEND_FOREACH_ITEM_FLAG_DO_DIRECT); } #endif // USE_RNA_DATABLOCKS BKE_blendfile_link_append_context_free(lapp_context); BKE_main_id_tag_all(bmain, ID_TAG_PRE_EXISTING, false); BKE_reports_free(&self->reports); Py_RETURN_NONE; } static PyObject *bpy_lib_dir(BPy_Library *self) { return PyDict_Keys(self->dict); } #ifdef __GNUC__ # ifdef __clang__ # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wcast-function-type" # else # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wcast-function-type" # endif #endif PyMethodDef BPY_library_load_method_def = { "load", (PyCFunction)bpy_lib_load, METH_VARARGS | METH_KEYWORDS, bpy_lib_load_doc, }; #ifdef __GNUC__ # ifdef __clang__ # pragma clang diagnostic pop # else # pragma GCC diagnostic pop # endif #endif int BPY_library_load_type_ready() { if (PyType_Ready(&bpy_lib_Type) < 0) { return -1; } return 0; }