# SPDX-License-Identifier: GPL-2.0-or-later __all__ = ( "paths", "modules", "check", "enable", "disable", "disable_all", "reset_all", "module_bl_info", ) import bpy as _bpy _preferences = _bpy.context.preferences error_encoding = False # (name, file, path) error_duplicates = [] addons_fake_modules = {} # called only once at startup, avoids calling 'reset_all', correct but slower. def _initialize(): path_list = paths() for path in path_list: _bpy.utils._sys_path_ensure_append(path) for addon in _preferences.addons: enable(addon.module) def paths(): # RELEASE SCRIPTS: official scripts distributed in Blender releases addon_paths = _bpy.utils.script_paths(subdir="addons") # CONTRIB SCRIPTS: good for testing but not official scripts yet # if folder addons_contrib/ exists, scripts in there will be loaded too addon_paths += _bpy.utils.script_paths(subdir="addons_contrib") return addon_paths def modules_refresh(*, module_cache=addons_fake_modules): global error_encoding import os error_encoding = False error_duplicates.clear() path_list = paths() # fake module importing def fake_module(mod_name, mod_path, speedy=True, force_support=None): global error_encoding if _bpy.app.debug_python: print("fake_module", mod_path, mod_name) import ast ModuleType = type(ast) try: file_mod = open(mod_path, "r", encoding='UTF-8') except OSError as ex: print("Error opening file:", mod_path, ex) return None with file_mod: if speedy: lines = [] line_iter = iter(file_mod) l = "" while not l.startswith("bl_info"): try: l = line_iter.readline() except UnicodeDecodeError as ex: if not error_encoding: error_encoding = True print("Error reading file as UTF-8:", mod_path, ex) return None if len(l) == 0: break while l.rstrip(): lines.append(l) try: l = line_iter.readline() except UnicodeDecodeError as ex: if not error_encoding: error_encoding = True print("Error reading file as UTF-8:", mod_path, ex) return None data = "".join(lines) else: data = file_mod.read() del file_mod try: ast_data = ast.parse(data, filename=mod_path) except: print("Syntax error 'ast.parse' can't read:", repr(mod_path)) import traceback traceback.print_exc() ast_data = None body_info = None if ast_data: for body in ast_data.body: if body.__class__ == ast.Assign: if len(body.targets) == 1: if getattr(body.targets[0], "id", "") == "bl_info": body_info = body break if body_info: try: mod = ModuleType(mod_name) mod.bl_info = ast.literal_eval(body.value) mod.__file__ = mod_path mod.__time__ = os.path.getmtime(mod_path) except: print("AST error parsing bl_info for:", repr(mod_path)) import traceback traceback.print_exc() return None if force_support is not None: mod.bl_info["support"] = force_support return mod else: print( "fake_module: addon missing 'bl_info' " "gives bad performance!:", repr(mod_path), ) return None modules_stale = set(module_cache.keys()) for path in path_list: # force all contrib addons to be 'TESTING' if path.endswith(("addons_contrib", )): force_support = 'TESTING' else: force_support = None for mod_name, mod_path in _bpy.path.module_names(path): modules_stale.discard(mod_name) mod = module_cache.get(mod_name) if mod: if mod.__file__ != mod_path: print( "multiple addons with the same name:\n" " %r\n" " %r" % (mod.__file__, mod_path) ) error_duplicates.append((mod.bl_info["name"], mod.__file__, mod_path)) elif mod.__time__ != os.path.getmtime(mod_path): print( "reloading addon:", mod_name, mod.__time__, os.path.getmtime(mod_path), repr(mod_path), ) del module_cache[mod_name] mod = None if mod is None: mod = fake_module( mod_name, mod_path, force_support=force_support, ) if mod: module_cache[mod_name] = mod # just in case we get stale modules, not likely for mod_stale in modules_stale: del module_cache[mod_stale] del modules_stale def modules(*, module_cache=addons_fake_modules, refresh=True): if refresh or ((module_cache is addons_fake_modules) and modules._is_first): modules_refresh(module_cache=module_cache) modules._is_first = False mod_list = list(module_cache.values()) mod_list.sort( key=lambda mod: ( mod.bl_info.get("category", ""), mod.bl_info.get("name", ""), ) ) return mod_list modules._is_first = True def check(module_name): """ Returns the loaded state of the addon. :arg module_name: The name of the addon and module. :type module_name: string :return: (loaded_default, loaded_state) :rtype: tuple of booleans """ import sys loaded_default = module_name in _preferences.addons mod = sys.modules.get(module_name) loaded_state = ( (mod is not None) and getattr(mod, "__addon_enabled__", Ellipsis) ) if loaded_state is Ellipsis: print( "Warning: addon-module", module_name, "found module " "but without '__addon_enabled__' field, " "possible name collision from file:", repr(getattr(mod, "__file__", "")), ) loaded_state = False if mod and getattr(mod, "__addon_persistent__", False): loaded_default = True return loaded_default, loaded_state # utility functions def _addon_ensure(module_name): addons = _preferences.addons addon = addons.get(module_name) if not addon: addon = addons.new() addon.module = module_name def _addon_remove(module_name): addons = _preferences.addons while module_name in addons: addon = addons.get(module_name) if addon: addons.remove(addon) def enable(module_name, *, default_set=False, persistent=False, handle_error=None): """ Enables an addon by name. :arg module_name: the name of the addon and module. :type module_name: string :arg default_set: Set the user-preference. :type default_set: bool :arg persistent: Ensure the addon is enabled for the entire session (after loading new files). :type persistent: bool :arg handle_error: Called in the case of an error, taking an exception argument. :type handle_error: function :return: the loaded module or None on failure. :rtype: module """ import os import sys from bpy_restrict_state import RestrictBlend if handle_error is None: def handle_error(_ex): import traceback traceback.print_exc() # reload if the mtime changes mod = sys.modules.get(module_name) # chances of the file _not_ existing are low, but it could be removed if mod and os.path.exists(mod.__file__): if getattr(mod, "__addon_enabled__", False): # This is an unlikely situation, # re-register if the module is enabled. # Note: the UI doesn't allow this to happen, # in most cases the caller should 'check()' first. try: mod.unregister() except Exception as ex: print( "Exception in module unregister():", repr(getattr(mod, "__file__", module_name)), ) handle_error(ex) return None mod.__addon_enabled__ = False mtime_orig = getattr(mod, "__time__", 0) mtime_new = os.path.getmtime(mod.__file__) if mtime_orig != mtime_new: import importlib print("module changed on disk:", repr(mod.__file__), "reloading...") try: importlib.reload(mod) except Exception as ex: handle_error(ex) del sys.modules[module_name] return None mod.__addon_enabled__ = False # add the addon first it may want to initialize its own preferences. # must remove on fail through. if default_set: _addon_ensure(module_name) # Split registering up into 3 steps so we can undo # if it fails par way through. # Disable the context: using the context at all # while loading an addon is really bad, don't do it! with RestrictBlend(): # 1) try import try: mod = __import__(module_name) if mod.__file__ is None: # This can happen when the addon has been removed but there are # residual `.pyc` files left behind. raise ImportError(name=module_name) mod.__time__ = os.path.getmtime(mod.__file__) mod.__addon_enabled__ = False except Exception as ex: # if the addon doesn't exist, don't print full traceback if type(ex) is ImportError and ex.name == module_name: print("addon not loaded:", repr(module_name)) print("cause:", str(ex)) else: handle_error(ex) if default_set: _addon_remove(module_name) return None # 1.1) Fail when add-on is too old. # This is a temporary 2.8x migration check, so we can manage addons that are supported. if mod.bl_info.get("blender", (0, 0, 0)) < (2, 80, 0): if _bpy.app.debug: print("Warning: Add-on '%s' was not upgraded for 2.80, ignoring" % module_name) return None # 2) Try register collected modules. # Removed register_module, addons need to handle their own registration now. from _bpy import _bl_owner_id_get, _bl_owner_id_set owner_id_prev = _bl_owner_id_get() _bl_owner_id_set(module_name) # 3) Try run the modules register function. try: mod.register() except Exception as ex: print( "Exception in module register():", getattr(mod, "__file__", module_name), ) handle_error(ex) del sys.modules[module_name] if default_set: _addon_remove(module_name) return None finally: _bl_owner_id_set(owner_id_prev) # * OK loaded successfully! * mod.__addon_enabled__ = True mod.__addon_persistent__ = persistent if _bpy.app.debug_python: print("\taddon_utils.enable", mod.__name__) return mod def disable(module_name, *, default_set=False, handle_error=None): """ Disables an addon by name. :arg module_name: The name of the addon and module. :type module_name: string :arg default_set: Set the user-preference. :type default_set: bool :arg handle_error: Called in the case of an error, taking an exception argument. :type handle_error: function """ import sys if handle_error is None: def handle_error(_ex): import traceback traceback.print_exc() mod = sys.modules.get(module_name) # possible this addon is from a previous session and didn't load a # module this time. So even if the module is not found, still disable # the addon in the user prefs. if mod and getattr(mod, "__addon_enabled__", False) is not False: mod.__addon_enabled__ = False mod.__addon_persistent = False try: mod.unregister() except Exception as ex: mod_path = getattr(mod, "__file__", module_name) print("Exception in module unregister():", repr(mod_path)) del mod_path handle_error(ex) else: print( "addon_utils.disable: %s not %s" % ( module_name, "disabled" if mod is None else "loaded") ) # could be in more than once, unlikely but better do this just in case. if default_set: _addon_remove(module_name) if _bpy.app.debug_python: print("\taddon_utils.disable", module_name) def reset_all(*, reload_scripts=False): """ Sets the addon state based on the user preferences. """ import sys # initializes addons_fake_modules modules_refresh() # RELEASE SCRIPTS: official scripts distributed in Blender releases paths_list = paths() for path in paths_list: _bpy.utils._sys_path_ensure_append(path) for mod_name, _mod_path in _bpy.path.module_names(path): is_enabled, is_loaded = check(mod_name) # first check if reload is needed before changing state. if reload_scripts: import importlib mod = sys.modules.get(mod_name) if mod: importlib.reload(mod) if is_enabled == is_loaded: pass elif is_enabled: enable(mod_name) elif is_loaded: print("\taddon_utils.reset_all unloading", mod_name) disable(mod_name) def disable_all(): import sys # Collect modules to disable first because dict can be modified as we disable. addon_modules = [ item for item in sys.modules.items() if getattr(item[1], "__addon_enabled__", False) ] # Check the enabled state again since it's possible the disable call # of one add-on disables others. for mod_name, mod in addon_modules: if getattr(mod, "__addon_enabled__", False): disable(mod_name) def _blender_manual_url_prefix(): return "https://docs.blender.org/manual/en/%d.%d" % _bpy.app.version[:2] def module_bl_info(mod, *, info_basis=None): if info_basis is None: info_basis = { "name": "", "author": "", "version": (), "blender": (), "location": "", "description": "", "doc_url": "", "support": 'COMMUNITY', "category": "", "warning": "", "show_expanded": False, } addon_info = getattr(mod, "bl_info", {}) # avoid re-initializing if "_init" in addon_info: return addon_info if not addon_info: mod.bl_info = addon_info for key, value in info_basis.items(): addon_info.setdefault(key, value) if not addon_info["name"]: addon_info["name"] = mod.__name__ doc_url = addon_info["doc_url"] if doc_url: doc_url_prefix = "{BLENDER_MANUAL_URL}" if doc_url_prefix in doc_url: addon_info["doc_url"] = doc_url.replace( doc_url_prefix, _blender_manual_url_prefix(), ) addon_info["_init"] = None return addon_info