bumblebee-status/bumblebee/engine.py

"""Core application engine"""

import os
import time
import pkgutil
import importlib
import bumblebee.error
import bumblebee.modules

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._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 widget(self, name):
        for widget in self._widgets:
            if widget.name == name:
                return widget

    def update(self, widgets):
        """By default, update() is a NOP"""
        pass

    def parameter(self, name, default=None):
        """Return the config parameter 'name' for this module"""
        name = "{}.{}".format(self.name, name)
        return self._config["config"].get(name, default)

    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.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")

        self.input.start()

    def load_modules(self, modules):
        """Load specified modules and return them as list"""
        for module in modules:
            self._modules.append(self._load_module(module["module"], module["name"]))
        return self._modules

    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 run(self):
        """Start the event loop"""
        self._output.start()
        while self.running():
            self._output.begin()
            for module in self._modules:
                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(self._config.get("interval", 1))

        self._output.stop()
        self.input.stop()

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