# pylint: disable=R0201 """Output classes""" import sys import json import uuid import logging import bumblebee.store import bumblebee.util MAX_PERCENTS = 100. CHARS = 8 HBARS = [ u"\u2581", u"\u2582", u"\u2583", u"\u2584", u"\u2585", u"\u2586", u"\u2587", u"\u2588"] VBARS = [ u"\u258f", u"\u258e", u"\u258d", u"\u258c", u"\u258b", u"\u258a", u"\u2589", u"\u2588"] BRAILLE = { (0, 0): u" ", (1, 0): u"\u2840", (2, 0): u"\u2844", (3, 0): u"\u2846", (4, 0): u"\u2847", (0, 1): u"\u2880", (0, 2): u"\u28a0", (0, 3): u"\u28b0", (0, 4): u"\u28b8", (1, 1): u"\u28c0", (2, 1): u"\u28c4", (3, 1): u"\u28c6", (4, 1): u"\u28c7", (1, 2): u"\u28e0", (2, 2): u"\u28e4", (3, 2): u"\u28e6", (4, 2): u"\u28e7", (1, 3): u"\u28f0", (2, 3): u"\u28f4", (3, 3): u"\u28f6", (4, 3): u"\u28f7", (1, 4): u"\u28f8", (2, 4): u"\u28fc", (3, 4): u"\u28fe", (4, 4): u"\u28ff" } log = logging.getLogger(__name__) def scrollable(func): def wrapper(module, widget): text = func(module, widget) if not text: return text width = widget.get("theme.width", int(module.parameter("width", 30))) if bumblebee.util.asbool(module.parameter("scrolling.makewide", "true")): widget.set("theme.minwidth", "A"*width) if width < 0: return text if len(text) <= width: return text # we need to shorten try: bounce = int(module.parameter("scrolling.bounce", 1)) except ValueError: bounce = 1 try: scroll_speed = int(module.parameter("scrolling.speed", 1)) except ValueError: scroll_speed = 1 start = widget.get("scrolling.start", -1) direction = widget.get("scrolling.direction", "right") start += scroll_speed if direction == "right" else -(scroll_speed) if width + start > len(text) + (scroll_speed -1): if bounce: widget.set("scrolling.direction", "left") else: start = 0 elif start <= 0: if bounce: widget.set("scrolling.direction", "right") else: start = len(text) widget.set("scrolling.start", start) text = text[start:width+start] return text return wrapper class Bar(object): """superclass""" bars = None def __init__(self, value): """ Args: value (float): value between 0. and 100. meaning percents """ self.value = value class HBar(Bar): """horizontal bar (1 char)""" bars = HBARS def __init__(self, value): """ Args: value (float): value between 0. and 100. meaning percents """ super(HBar, self).__init__(value) self.step = MAX_PERCENTS / CHARS def get_char(self): """ Decide which char to draw Return: str """ for i in range(CHARS): left = i * self.step right = (i + 1) * self.step if left <= self.value < right: return self.bars[i] return self.bars[-1] def hbar(value): """wrapper function""" return HBar(value).get_char() class VBar(Bar): """vertical bar (can be more than 1 char)""" bars = VBARS def __init__(self, value, width=1): """ Args: value (float): value between 0. and 100. meaning percents width (int): width """ super(VBar, self).__init__(value) self.step = MAX_PERCENTS / (CHARS * width) self.width = width def get_chars(self): """ Decide which char to draw Return: str """ if self.value == 100: return self.bars[-1] * self.width if self.width == 1: for i in range(CHARS): left = i * self.step right = (i + 1) * self.step if left <= self.value < right: return self.bars[i] else: full_parts = int(self.value // (self.step * CHARS)) remainder = self.value - full_parts * self.step * CHARS empty_parts = self.width - full_parts if remainder >= 0: empty_parts -= 1 part_vbar = VBar(remainder * self.width) # scale to width chars = self.bars[-1] * full_parts chars += part_vbar.get_chars() chars += " " * empty_parts return chars def vbar(value, width): """wrapper function""" return VBar(value, width).get_chars() class BrailleGraph(object): """ graph using Braille chars scaled to passed values """ def __init__(self, values): """ Args: values (list): list of values """ self.values = values # length of values list must be even # because one Braille char displays two values if len(self.values) % 2 == 1: self.values.append(0) self.steps = self.get_steps() self.parts = [tuple(self.steps[i:i+2]) for i in range(len(self.steps))[::2]] @staticmethod def get_height(value, unit): """ Compute height of a value relative to unit Args: value (number): value unit (number): unit """ if value < unit / 10.: return 0 elif value <= unit: return 1 elif value <= unit * 2: return 2 elif value <= unit * 3: return 3 else: return 4 def get_steps(self): """ Convert the list of values to a list of steps Return: list """ maxval = max(self.values) unit = maxval / 4. if unit == 0: return [0] * len(self.values) stepslist = [] for value in self.values: stepslist.append(self.get_height(value, unit)) return stepslist def get_chars(self): """ Decide which chars to draw Return: str """ chars = [] for part in self.parts: chars.append(BRAILLE[part]) return "".join(chars) def bgraph(values): """wrapper function""" return BrailleGraph(values).get_chars() class Widget(bumblebee.store.Store): """Represents a single visible block in the status bar""" def __init__(self, full_text="", name=""): super(Widget, self).__init__() self._full_text = full_text self.module = None self._module = None self._minimized = False self.name = name self.id = str(uuid.uuid4()) def get_module(self): return self._module def toggle_minimize(self): self._minimized = not self._minimized def link_module(self, module): """Set the module that spawned this widget This is done outside the constructor to avoid having to pass in the module name in every concrete module implementation""" self.module = module.name self._module = module def cls(self): if not self._module: return None return self._module.__module__.replace("bumblebee.modules.", "") def state(self): """Return the widget's state""" if self._module and hasattr(self._module, "state"): states = self._module.state(self) if not isinstance(states, list): return [states] return states return [] def full_text(self, value=None): """Set or retrieve the full text to display in the widget""" if value: self._full_text = value else: if self._minimized: return u"\u2026" if callable(self._full_text): return self._full_text(self) else: return self._full_text class WidgetDrawer(object): """ Wrapper for I3BarOutput.draw(), because that function is getting too big """ def __init__(self, theme, config=None): """ Keep the same signature as I3BarOutput.__init__() """ self._theme = theme self._config = config self._widgets = [] def add_separator(self, widget, separator): """Add separator (if theme has one)""" if separator: self._widgets.append({ u"full_text": separator, "separator": False, "color": self._theme.separator_fg(widget), "background": self._theme.separator_bg(widget), "separator_block_width": self._theme.separator_block_width(widget), }) def draw(self, widget, module=None, engine=None): """ Keep the same argument signature as I3BarOutput.draw() Return: list list[0] - optional if the theme has a separator list[1] - JSON text for the widget """ separator = self._theme.separator(widget) self.add_separator(widget, separator) full_text = widget.full_text() if widget.get_module() and widget.get_module().hidden(): return [] if widget.get_module() and widget.get_module().name in self._config.autohide(): if not any(state in widget.state() for state in ["warning", "critical"]): return [] padding = self._theme.padding(widget) prefix = self._theme.prefix(widget, padding) suffix = self._theme.suffix(widget, padding) if self._config.markup() == "pango": # add prefix/suffix colors fg = self._theme.prefix_fg(widget) bg = self._theme.prefix_bg(widget) prefix = "{}".format( "foreground='{}'".format(fg) if fg else "", "background='{}'".format(bg) if bg else "", prefix ) if prefix: full_text = u"{}{}".format(prefix, full_text) if suffix: full_text = u"{}{}".format(full_text, suffix) width = self._theme.minwidth(widget) if width: full_text = full_text.ljust(len(width) + len(prefix) + len(suffix)) markup = "none" if not self._config else self._config.markup() if markup == "pango": full_text = full_text.replace("&", "&") self._widgets.append({ u"full_text": full_text, "color": self._theme.fg(widget), "background": self._theme.bg(widget), "separator_block_width": self._theme.separator_block_width(widget), "separator": True if separator is None else False, "min_width": None, # "min_width": width + "A"*(len(prefix) + len(suffix)) if width else None, "align": self._theme.align(widget), "instance": widget.id, "name": module.id, "markup": markup, }) return self._widgets class I3BarOutput(object): """Manage output according to the i3bar protocol""" def __init__(self, theme, config=None): self._theme = theme self._widgets = [] self._started = False self._config = config def started(self): return self._started def start(self): """Print start preamble for i3bar protocol""" self._started = True sys.stdout.write(json.dumps({"version": 1, "click_events": True}) + "\n[\n") def stop(self): """Finish i3bar protocol""" sys.stdout.write("]\n") def draw(self, widget, module=None, engine=None): """ Draw a single widget Note: technically, this method doesn't draw anything. It only adds blocks of JSON text to self._widgets: one for separator, if the theme contains a separator and one for the widget itself """ widget_drawer = WidgetDrawer(self._theme, self._config) self._widgets.extend(widget_drawer.draw(widget, module, engine)) def begin(self): """Start one output iteration""" self._widgets = [] self._theme.reset() def flush(self): """Flushes output""" widgets = self._widgets if self._config and self._config.reverse(): widgets = list(reversed(widgets)) sys.stdout.write(json.dumps(widgets)) if len(self._config.unused_keys()) > 0: for key in self._config.unused_keys(): log.warning("unused parameter {} - please check the documentation of the affected module to ensure the parameter exists".format(key)) def end(self): """Finalizes output""" sys.stdout.write(",\n") sys.stdout.flush() # vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4