"""Core application engine""" import os import json import pkgutil import logging import importlib import bumblebee.error import bumblebee.modules log = logging.getLogger(__name__) try: from ConfigParser import RawConfigParser except ImportError: from configparser import RawConfigParser def all_modules(): """Return a list of available modules""" result = [] path = os.path.dirname(bumblebee.modules.__file__) for mod in [name for _, name, _ in pkgutil.iter_modules([path])]: result.append({ "name": mod }) return result class Module(object): """Module instance base class Objects of this type represent the modules that the user configures. Concrete module implementations (e.g. CPU utilization, disk usage, etc.) derive from this base class. """ def __init__(self, engine, config={}, widgets=[]): self.name = config.get("name", self.__module__.split(".")[-1]) self._config = config self.id = self.name self._configFile = None for cfg in [os.path.expanduser("~/.bumblebee-status.conf"), os.path.expanduser("~/.config/bumblebee-status.conf")]: if os.path.exists(cfg): self._configFile = RawConfigParser() self._configFile.read(cfg) log.debug("reading configuration file {}".format(cfg)) break if self._configFile is not None and self._configFile.has_section("module-parameters"): log.debug(self._configFile.items("module-parameters")) self._widgets = [] if widgets: self._widgets = widgets if isinstance(widgets, list) else [widgets] def widgets(self): """Return the widgets to draw for this module""" return self._widgets def hidden(self): return False def widget(self, name): for widget in self._widgets: if widget.name == name: return widget def widget_by_id(self, uid): for widget in self._widgets: if widget.id == uid: return widget return None def update(self, widgets): """By default, update() is a NOP""" pass def update_all(self): self.update(self._widgets) def has_parameter(self, name): v = self.parameter(name) return v is not None def parameter(self, name, default=None): """Return the config parameter 'name' for this module""" name = "{}.{}".format(self.name, name) value = self._config["config"].get(name, default) log.debug("command line parameter {}={}".format(name, str(value))) if value == default: try: log.debug("trying to read {} from configuration file".format(name)) value = self._configFile.get("module-parameters", name) log.debug("configuration file {}={}".format(name, str(value))) except: pass return value def threshold_state(self, value, warn, crit): if value > float(self.parameter("critical", crit)): return "critical" if value > float(self.parameter("warning", warn)): return "warning" return None class Engine(object): """Engine for driving the application This class connects input/output, instantiates all required modules and drives the "event loop" """ def __init__(self, config, output=None, inp=None): self._output = output self._config = config self._running = True self._modules = [] self.input = inp self._aliases = self._read_aliases() self.load_modules(config.modules()) self._current_module = None if bumblebee.util.asbool(config.get("engine.workspacewheel", "true")): if bumblebee.util.asbool(config.get("engine.workspacewrap", "true")): self.input.register_callback(None, bumblebee.input.WHEEL_UP, "i3-msg workspace prev_on_output") self.input.register_callback(None, bumblebee.input.WHEEL_DOWN, "i3-msg workspace next_on_output") else: self.input.register_callback(None, bumblebee.input.WHEEL_UP, cmd=self._prev_workspace) self.input.register_callback(None, bumblebee.input.WHEEL_DOWN, cmd=self._next_workspace) self.input.start() def _prev_workspace(self, event): self._change_workspace(-1) def _next_workspace(self, event): self._change_workspace(1) def _change_workspace(self, amount): try: active_output = None active_index = -1 output_workspaces = {} data = json.loads(bumblebee.util.execute("i3-msg -t get_workspaces")) for workspace in data: output_workspaces.setdefault(workspace["output"], []).append(workspace) if workspace["focused"]: active_output = workspace["output"] active_index = len(output_workspaces[workspace["output"]]) - 1 if (active_index + amount) < 0: return if (active_index + amount) >= len(output_workspaces[active_output]): return while amount != 0: if amount > 0: bumblebee.util.execute("i3-msg workspace next_on_output") amount = amount - 1 if amount < 0: bumblebee.util.execute("i3-msg workspace prev_on_output") amount = amount + 1 except Exception as e: log.error("failed to change workspace: {}".format(e)) def modules(self): return self._modules def load_modules(self, modules): """Load specified modules and return them as list""" for module in modules: mod = self._load_module(module["module"], module["name"]) self._modules.append(mod) self._register_module_callbacks(mod) return self._modules def _register_module_callbacks(self, module): buttons = [ {"name": "left-click", "id": bumblebee.input.LEFT_MOUSE}, {"name": "middle-click", "id": bumblebee.input.MIDDLE_MOUSE}, {"name": "right-click", "id": bumblebee.input.RIGHT_MOUSE}, {"name": "wheel-up", "id": bumblebee.input.WHEEL_UP}, {"name": "wheel-down", "id": bumblebee.input.WHEEL_DOWN}, ] for button in buttons: if module.parameter(button["name"], None): self.input.register_callback(obj=module, button=button["id"], cmd=module.parameter(button["name"])) def _read_aliases(self): result = {} for module in all_modules(): mod = importlib.import_module("bumblebee.modules.{}".format(module["name"])) for alias in getattr(mod, "ALIASES", []): result[alias] = module["name"] return result def _load_module(self, module_name, config_name=None): """Load specified module and return it as object""" if module_name in self._aliases: config_name is config_name if config_name else module_name module_name = self._aliases[module_name] if config_name is None: config_name = module_name try: module = importlib.import_module("bumblebee.modules.{}".format(module_name)) except ImportError as error: raise bumblebee.error.ModuleLoadError(error) return getattr(module, "Module")(self, { "name": config_name, "config": self._config }) def running(self): """Check whether the event loop is running""" return self._running def stop(self): """Stop the event loop""" self._running = False def current_module(self): return self._current_module.__module__ def run(self): """Start the event loop""" self._output.start() while self.running(): self._output.begin() for module in self._modules: self._current_module = module module.update(module.widgets()) for widget in module.widgets(): widget.link_module(module) self._output.draw(widget=widget, module=module, engine=self) self._output.flush() self._output.end() if self.running(): self.input.wait(float(self._config.get("interval", 1))) self._output.stop() self.input.stop() # vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4