sugar-toolkit-gtk3/shell/view/home/activitiesdonut.py
2007-11-26 11:51:44 +01:00

557 lines
20 KiB
Python
Executable File

# Copyright (C) 2006-2007 Red Hat, Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
import colorsys
from gettext import gettext as _
import logging
import math
import os
import hippo
import gobject
import gtk
from sugar.graphics.icon import CanvasIcon
from sugar.graphics.menuitem import MenuItem
from sugar.graphics.palette import Palette
from sugar.graphics import style
from sugar.graphics import xocolor
from sugar import profile
import proc_smaps
_MAX_ACTIVITIES = 6
_MIN_WEDGE_SIZE = 1.0 / _MAX_ACTIVITIES
_DONUT_SIZE = style.zoom(450)
# TODO: rgb_to_html and html_to_rgb are useful elsewhere
# we should put this in a common module
def rgb_to_html(r, g, b):
""" (r, g, b) tuple (in float format) -> #RRGGBB """
return '#%02x%02x%02x' % (int(r * 255), int(g * 255), int(b * 255))
def html_to_rgb(html_color):
""" #RRGGBB -> (r, g, b) tuple (in float format) """
html_color = html_color.strip()
if html_color[0] == '#':
html_color = html_color[1:]
if len(html_color) != 6:
raise ValueError, "input #%s is not in #RRGGBB format" % html_color
r, g, b = html_color[:2], html_color[2:4], html_color[4:]
r, g, b = [int(n, 16) for n in (r, g, b)]
r, g, b = (r / 255.0, g / 255.0, b / 255.0)
return (r, g, b)
class ActivityIcon(CanvasIcon):
_INTERVAL = 100
__gsignals__ = {
'resume': (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE, ([])),
'stop': (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE, ([]))
}
def __init__(self, activity):
self._orig_color = activity.get_icon_color()
self._icon_colors = self._compute_icon_colors()
self._direction = 0
self._level_max = len(self._icon_colors) - 1
self._level = self._level_max
color = self._icon_colors[self._level]
CanvasIcon.__init__(self, xo_color=color, cache=True,
size=style.MEDIUM_ICON_SIZE)
icon_path = activity.get_icon_path()
if icon_path:
self.props.file_name = icon_path
else:
self.props.icon_name = 'image-missing'
self._activity = activity
self._pulse_id = 0
self.size = _MIN_WEDGE_SIZE
palette = Palette(_('Starting...'))
self.set_palette(palette)
if activity.props.launching:
self._start_pulsing()
activity.connect('notify::launching', self._launching_changed_cb)
else:
self._setup_palette()
def _setup_palette(self):
palette = self.get_palette()
palette.set_primary_text(self._activity.get_title())
resume_menu_item = MenuItem(_('Resume'), 'activity-start')
resume_menu_item.connect('activate', self._resume_activate_cb)
palette.menu.append(resume_menu_item)
resume_menu_item.show()
# FIXME: kludge
if self._activity.get_type() != "org.laptop.JournalActivity":
stop_menu_item = MenuItem(_('Stop'), 'activity-stop')
stop_menu_item.connect('activate', self._stop_activate_cb)
palette.menu.append(stop_menu_item)
stop_menu_item.show()
def _launching_changed_cb(self, activity, pspec):
if not activity.props.launching:
self._stop_pulsing()
self._setup_palette()
def __del__(self):
self._cleanup()
def _cleanup(self):
if self._pulse_id:
gobject.source_remove(self._pulse_id)
self._pulse_id = 0
def _compute_icon_colors(self):
_LEVEL_MAX = 1.6
_LEVEL_STEP = 0.16
_LEVEL_MIN = 0.0
icon_colors = {}
level = _LEVEL_MIN
for i in range(0, int(_LEVEL_MAX / _LEVEL_STEP)):
icon_colors[i] = self._get_icon_color_for_level(level)
level += _LEVEL_STEP
return icon_colors
def _get_icon_color_for_level(self, level):
factor = math.sin(level)
h, s, v = colorsys.rgb_to_hsv(*html_to_rgb(self._orig_color.get_fill_color()))
new_fill = rgb_to_html(*colorsys.hsv_to_rgb(h, s * factor, v))
h, s, v = colorsys.rgb_to_hsv(*html_to_rgb(self._orig_color.get_stroke_color()))
new_stroke = rgb_to_html(*colorsys.hsv_to_rgb(h, s * factor, v))
return xocolor.XoColor("%s,%s" % (new_stroke, new_fill))
def _pulse_cb(self):
if self._direction == 1:
self._level += 1
if self._level > self._level_max:
self._direction = 0
self._level = self._level_max
elif self._direction == 0:
self._level -= 1
if self._level <= 0:
self._direction = 1
self._level = 0
self.props.xo_color = self._icon_colors[self._level]
self.emit_paint_needed(0, 0, -1, -1)
return True
def _start_pulsing(self):
if self._pulse_id:
return
self._pulse_id = gobject.timeout_add(self._INTERVAL, self._pulse_cb)
def _stop_pulsing(self):
if not self._pulse_id:
return
self._cleanup()
self._level = 100.0
self.props.xo_color = self._orig_color
def _resume_activate_cb(self, menuitem):
self.emit('resume')
def _stop_activate_cb(self, menuitem):
self.emit('stop')
def get_activity(self):
return self._activity
class ActivitiesDonut(hippo.CanvasBox, hippo.CanvasItem):
__gtype_name__ = 'SugarActivitiesDonut'
def __init__(self, shell, **kwargs):
hippo.CanvasBox.__init__(self, **kwargs)
self._activities = []
self._shell = shell
self._angles = []
self._shell_mappings = proc_smaps.get_shared_mapping_names(os.getpid())
self._layout = _Layout()
self.set_layout(self._layout)
self._model = shell.get_model().get_home()
self._model.connect('activity-added', self._activity_added_cb)
self._model.connect('activity-removed', self._activity_removed_cb)
self._model.connect('pending-activity-changed', self._activity_changed_cb)
self.connect('button-release-event', self._button_release_event_cb)
def _get_icon_from_activity(self, activity):
for icon in self._activities:
if icon.get_activity().equals(activity):
return icon
def _activity_added_cb(self, model, activity):
self._add_activity(activity)
def _activity_removed_cb(self, model, activity):
self._remove_activity(activity)
def _activity_changed_cb(self, model, activity):
self.emit_paint_needed(0, 0, -1, -1)
def _remove_activity(self, activity):
icon = self._get_icon_from_activity(activity)
if icon:
self.remove(icon)
icon._cleanup()
self._activities.remove(icon)
self._compute_angles()
def _add_activity(self, activity):
icon = ActivityIcon(activity)
icon.connect('resume', self._activity_icon_resumed_cb)
icon.connect('stop', self._activity_icon_stop_cb)
self.append(icon, hippo.PACK_FIXED)
self._activities.append(icon)
self._compute_angles()
def _activity_icon_resumed_cb(self, icon):
activity = icon.get_activity()
activity_host = self._shell.get_activity(activity.get_activity_id())
if activity_host:
activity_host.present()
else:
logging.error("Could not find ActivityHost for activity %s" %
activity.get_activity_id())
def _activity_icon_stop_cb(self, icon):
activity = icon.get_activity()
activity_host = self._shell.get_activity(activity.get_activity_id())
if activity_host:
activity_host.close()
else:
logging.error("Could not find ActivityHost for activity %s" %
activity.get_activity_id())
def _get_activity(self, x, y):
# Compute the distance from the center.
[width, height] = self.get_allocation()
x -= width / 2
y -= height / 2
r = math.hypot(x, y)
# Ignore the click if it's not inside the donut
if r < self._get_inner_radius() or r > self._get_radius():
return None
# Now figure out where in the donut the click was.
angle = math.atan2(-y, -x) + math.pi
# Unfortunately, _get_angles() doesn't count from 0 to 2pi, it
# counts from roughly pi/2 to roughly 5pi/2. So we have to
# compare its return values against both angle and angle+2pi
high_angle = angle + 2 * math.pi
for index, activity in enumerate(self._model):
[angle_start, angle_end] = self._get_angles(index)
if angle_start < angle and angle_end > angle:
return activity
elif angle_start < high_angle and angle_end > high_angle:
return activity
return None
def _button_release_event_cb(self, item, event):
activity = self._get_activity(event.x, event.y)
if activity is None:
return False
activity_host = self._shell.get_activity(activity.get_activity_id())
if activity_host:
activity_host.present()
return True
def _set_fixed_arc_size(self):
"""Set fixed arc size"""
n = len(self._activities)
if n > _MAX_ACTIVITIES:
size = 1.0 / n
else:
size = 1.0 / _MAX_ACTIVITIES
for act in self._activities:
act.size = size
def _update_activity_sizes(self):
"""Currently the size of an activity on the donut does not
represent it's memory usage. This is disabled because it was
either not working perfectly or a little confusing. See #3605"""
self._set_fixed_arc_size()
return
# Get the memory mappings of each process that hosts an
# activity, and count how many activity instances each
# activity process hosts, and how many processes are mapping
# each shared library, etc
process_mappings = {}
num_activities = {}
num_mappings = {}
unknown_size_activities = 0
for activity in self._model:
pid = activity.get_pid()
if not pid:
# Still starting up, hasn't opened a window yet
unknown_size_activities += 1
continue
if num_activities.has_key(pid):
num_activities[pid] += 1
continue
try:
mappings = proc_smaps.get_mappings(pid, self._shell_mappings)
for mapping in mappings:
if mapping.shared > 0:
if num_mappings.has_key(mapping.name):
num_mappings[mapping.name] += 1
else:
num_mappings[mapping.name] = 1
process_mappings[pid] = mappings
num_activities[pid] = 1
except Exception, e:
logging.warn('ActivitiesDonut: could not read /proc/%s/smaps: %r'
% (pid, e))
# Compute total memory used per process
process_size = {}
total_activity_size = 0
for activity in self._model:
pid = activity.get_pid()
if not process_mappings.has_key(pid):
continue
mappings = process_mappings[pid]
size = 0
for mapping in mappings:
size += mapping.private
if mapping.shared > 0:
num = num_mappings[mapping.name]
size += mapping.shared / num
process_size[pid] = size
total_activity_size += size / num_activities[pid]
# Now, see how much free memory is left.
free_memory = 0
try:
meminfo = open('/proc/meminfo')
for line in meminfo.readlines():
if line.startswith('MemFree:') or line.startswith('SwapFree:'):
free_memory += int(line[9:-3])
meminfo.close()
except IOError:
logging.warn('ActivitiesDonut: could not read /proc/meminfo')
except (IndexError, ValueError):
logging.warn('ActivitiesDonut: /proc/meminfo was not in ' +
'expected format')
total_memory = float(total_activity_size + free_memory)
# Each activity has an ideal size of:
# process_size[pid] / num_activities[pid] / total_memory
# (And the free memory wedge is ideally free_memory /
# total_memory) However, no activity wedge is allowed to be
# smaller than _MIN_WEDGE_SIZE. This means the small
# activities will use up extra space, which would make the
# ring overflow. We fix that by reducing the large activities
# and the free space proportionately. If there are activities
# of unknown size, they are simply carved out of the free
# space.
free_percent = free_memory / total_memory
activity_sizes = []
overflow = 0.0
reducible = free_percent
for icon in self._activities:
pid = icon.get_activity().get_pid()
if process_size.has_key(pid):
icon.size = (process_size[pid] / num_activities[pid] /
total_memory)
if icon.size < _MIN_WEDGE_SIZE:
overflow += _MIN_WEDGE_SIZE - icon.size
icon.size = _MIN_WEDGE_SIZE
else:
reducible += icon.size - _MIN_WEDGE_SIZE
else:
icon.size = _MIN_WEDGE_SIZE
if reducible > 0.0:
reduction = overflow / reducible
if unknown_size_activities > 0:
unknown_percent = _MIN_WEDGE_SIZE * unknown_size_activities
if (free_percent * (1 - reduction) < unknown_percent):
# The free wedge won't be large enough to fit the
# unknown-size activities. So adjust things
overflow += unknown_percent - free_percent
reducible -= free_percent
reduction = overflow / reducible
if reduction > 0.0:
for icon in self._activities:
if icon.size > _MIN_WEDGE_SIZE:
icon.size -= (icon.size - _MIN_WEDGE_SIZE) * reduction
def _compute_angles(self):
self._angles = []
if len(self._activities) == 0:
return
# Normally we don't _update_activity_sizes() when launching a
# new activity; but if the new wedge would overflow the ring
# then we have no choice.
total = reduce(lambda s1,s2: s1 + s2,
[icon.size for icon in self._activities])
if total > 1.0:
self._update_activity_sizes()
# The first wedge (Journal) should be centered at 6 o'clock
size = self._activities[0].size or _MIN_WEDGE_SIZE
angle = (math.pi - size * 2 * math.pi) / 2
self._angles.append(angle)
for icon in self._activities:
size = icon.size or _MIN_WEDGE_SIZE
self._angles.append(self._angles[-1] + size * 2 * math.pi)
def redraw(self):
self._update_activity_sizes()
self._compute_angles()
self.emit_request_changed()
def _get_angles(self, index):
return [self._angles[index],
self._angles[(index + 1) % len(self._angles)]]
def _get_radius(self):
[width, height] = self.get_allocation()
return min(width, height) / 2
def _get_inner_radius(self):
return self._get_radius() * 0.5
def do_paint_below_children(self, cr, damaged_box):
[width, height] = self.get_allocation()
cr.translate(width / 2, height / 2)
radius = self._get_radius()
# Outer Ring
cr.set_source_rgb(0xf1 / 255.0, 0xf1 / 255.0, 0xf1 / 255.0)
cr.arc(0, 0, radius, 0, 2 * math.pi)
cr.fill()
# Selected Wedge
current_activity = self._model.get_pending_activity()
if current_activity is not None:
selected_index = self._model.index(current_activity)
[angle_start, angle_end] = self._get_angles(selected_index)
cr.new_path()
cr.move_to(0, 0)
cr.line_to(radius * math.cos(angle_start),
radius * math.sin(angle_start))
cr.arc(0, 0, radius, angle_start, angle_end)
cr.line_to(0, 0)
cr.set_source_rgb(1, 1, 1)
cr.fill()
# Edges
if len(self._model):
n_edges = len(self._model) + 1
else:
n_edges = 0
for i in range(0, n_edges):
cr.new_path()
cr.move_to(0, 0)
[angle, unused_angle] = self._get_angles(i)
cr.line_to(radius * math.cos(angle),
radius * math.sin(angle))
cr.set_source_rgb(0xe2 / 255.0, 0xe2 / 255.0, 0xe2 / 255.0)
cr.set_line_width(4)
cr.stroke_preserve()
# Inner Ring
cr.new_path()
cr.arc(0, 0, self._get_inner_radius(), 0, 2 * math.pi)
cr.set_source_rgb(0xe2 / 255.0, 0xe2 / 255.0, 0xe2 / 255.0)
cr.fill()
def do_allocate(self, width, height, origin_changed):
hippo.CanvasBox.do_allocate(self, width, height, origin_changed)
radius = (self._get_inner_radius() + self._get_radius()) / 2
for i, icon in enumerate(self._activities):
[angle_start, angle_end] = self._get_angles(i)
angle = angle_start + (angle_end - angle_start) / 2
[icon_width, icon_height] = icon.get_allocation()
x = int(radius * math.cos(angle)) - icon_width / 2
y = int(radius * math.sin(angle)) - icon_height / 2
self.set_position(icon, x + width / 2, y + height / 2)
class _Layout(gobject.GObject,hippo.CanvasLayout):
__gtype_name__ = 'SugarDonutLayout'
def __init__(self):
gobject.GObject.__init__(self)
def do_set_box(self, box):
self._box = box
def do_get_height_request(self, for_width):
return _DONUT_SIZE, _DONUT_SIZE
def do_get_width_request(self):
return _DONUT_SIZE, _DONUT_SIZE
def do_allocate(self, x, y, width, height,
req_width, req_height, origin_changed):
for child in self._box.get_layout_children():
min_width, child_width = child.get_width_request()
min_height, child_height = child.get_height_request(child_width)
[angle_start, angle_end] = self._box._get_angles(i)
angle = angle_start + (angle_end - angle_start) / 2
x = int(radius * math.cos(angle)) - icon_width / 2
y = int(radius * math.sin(angle)) - icon_height / 2
child.allocate(x + (width - child_width) / 2,
y + (height - child_height) / 2,
icon_width, icon_height, origin_changed)