/usr/lib/python3/dist-packages/Onboard/utils.py is in onboard 1.2.0-0ubuntu5.
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# Copyright © 2007-2009 Chris Jones <tortoise@tortuga>
# Copyright © 2008, 2010 Francesco Fumanti <francesco.fumanti@gmx.net>
# Copyright © 2012 Gerd Kohlberger <lowfi@chello.at>
# Copyright © 2011-2015 marmuta <marmvta@gmail.com>
#
# This file is part of Onboard.
#
# Onboard 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 3 of the License, or
# (at your option) any later version.
#
# Onboard 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, see <http://www.gnu.org/licenses/>.
from __future__ import division, print_function, unicode_literals
import sys
import os
import time
import re
import colorsys
import gettext
import subprocess
from math import pi, sin, cos, sqrt, log
from contextlib import contextmanager
import logging
from functools import reduce
from gi.repository import GLib
_logger = logging.getLogger("utils")
# keycodes
class KeyCode:
Return = 36
KP_Enter = 104
C = 54
class Modifiers:
# 1 2 4 8 16 32 64 128
SHIFT, CAPS, CTRL, ALT, NUMLK, MOD3, SUPER, ALTGR = \
(1<<bit for bit in range(8))
# modifiers affecting labels
LABEL_MODIFIERS = Modifiers.SHIFT | \
Modifiers.CAPS | \
Modifiers.NUMLK | \
Modifiers.ALTGR
modifiers = {"shift":1,
"caps":2,
"control":4,
"mod1":8, # Left Alt
"mod2":16, # NumLk
"mod3":32,
"mod4":64, # Super
"mod5":128, # Alt Gr
}
modGroups = {"SHIFT" : ["LFSH"],
"CTRL" : ["LCTL"],
}
modList = [["LWIN", ("Win",64)],
["RTSH", ("⇧", 1)],
["LFSH", ("⇧", 1)],
["RALT", ("Alt Gr", 128)],
["LALT", ("Alt", 8)],
["RCTL", ("Ctrl", 4)],
["LCTL", ("Ctrl", 4)],
["CAPS", ("CAPS", 2)],
["NMLK", ("Nm\nLk",16)]]
modDic = dict(modList)
otherDic = {"RWIN" : "Win",
"MENU" : "Menu",
"BKSP" : "⇦",
"RTRN" : "Return",
"TAB" : "Tab",
"INS":"Ins",
"HOME":"Hm",
"PGUP": "Pg\nUp",
"DELE":"Del",
"END":"End",
"PGDN":"Pg\nDn",
"UP": "↑",
"DOWN":"↓",
"LEFT" : "←",
"RGHT" : "→",
"KP0" : "0",
"KP1" : "1",
"KP2" : "2",
"KP3" : "3",
"KP4" : "4",
"KP5" : "5",
"KP6" : "6",
"KP7" : "7",
"KP8" : "8",
"KP9" : "9",
"KPDL":"Del",
"KPEN": "Ent" }
funcKeys = (("ESC",65307),
("F1",65470),
("F2",65471),
("F3",65472),
("F4", 65473),
("F5", 65474),
("F6",65475),
("F7",65476),
("F8",65477),
("F9",65478),
("F10",65479),
("F11", 65480),
("F12", 65481),
("Prnt", 65377),
("Scroll", 65300),
("Pause", 65299))
keysyms = {"space" : 0x0020,
"kp_space" : 65408,
"insert" : 0xff63,
"home" : 0xff50,
"page_up" : 0xff55,
"page_down" : 0xff56,
"end" :0xff57,
"delete" : 0xffff,
"return" : 65293,
"backspace" : 65288,
"left" : 0xff51,
"up" : 0xff52,
"right" : 0xff53,
"down" : 0xff54,}
def get_keysym_from_name(name):
return keysyms[name]
def parse_key_combination(combo, avaliable_key_ids = None):
"""
Parses a key combination into a list of modifier masks and key_ids.
The key-id part of the combo may contain a regex pattern.
Doctests:
# modifiers
>>> parse_key_combination(["TAB"], ["TAB"])
[('TAB', 0)]
>>> parse_key_combination(["LALT", "TAB"], ["TAB"])
[('TAB', 8)]
>>> parse_key_combination(["LALT", "LFSH", "TAB"], ["TAB"])
[('TAB', 9)]
>>> parse_key_combination(["LWIN", "RTSH", "LFSH", "RALT", "LALT", "RCTL", "LCTL", "CAPS", "NMLK", "TAB"], ["TAB"])
[('TAB', 223)]
# modifier groups
>>> parse_key_combination(["CTRL", "SHIFT", "TAB"], ["TAB"])
[('TAB', 5)]
# regex
>>> parse_key_combination(["F\d+"], ["TAB", "F1", "F2", "F3", "F9"])
[('F1', 0), ('F2', 0), ('F3', 0), ('F9', 0)]
"""
modifiers = combo[:-1]
key_pattern = combo[-1]
# find modifier mask
mod_mask = parse_modifier_strings(modifiers)
if mod_mask is None:
return None
# match regex key id with all available ids
results = []
pattern = re.compile(key_pattern)
for key_id in avaliable_key_ids:
match = pattern.match(key_id)
if match and match.group() == key_id:
results.append((key_id, mod_mask))
return results
def parse_modifier_strings(modifiers):
""" Build modifier mask from modifier strings. """
mod_mask = 0
for modifier in modifiers:
m = modDic.get(modifier)
if not m is None:
mod_mask |= m[1]
else:
group = modGroups.get(modifier)
if not group is None:
for mod in group:
mod_mask |= modDic[mod][1]
else:
_logger.warning("unrecognized modifier '{}'; try one of {}" \
.format(modifier, ",".join(m[0] for m in modList)))
mod_mask = None
break
return mod_mask
def run_script(script):
a =__import__(script)
a.run()
def toprettyxml(domdoc):
ugly_xml = domdoc.toprettyxml(indent=' ')
# Join lines with text elements with their tag lines
pattern = re.compile('>\n\s+([^<>\s].*?)\n\s+</', re.DOTALL)
pretty_xml = pattern.sub('>\g<1></', ugly_xml)
# Work around http://bugs.python.org/issue5752
pretty_xml = re.sub(
'"[^"]*"',
lambda m: m.group(0).replace("\n", " "),
pretty_xml)
# remove empty lines
pretty_xml = os.linesep.join( \
[s for s in pretty_xml.splitlines() if s.strip()])
return pretty_xml
def dec_to_hex_colour(dec):
hexString = hex(int(255*dec))[2:]
if len(hexString) == 1:
hexString = "0" + hexString
return hexString
def xml_get_text(dom_node, tag_name):
""" extract text from a dom node """
nodelist = dom_node.getElementsByTagName(tag_name)
if not nodelist:
return None
rc = []
for node in nodelist[0].childNodes:
if node.nodeType == node.TEXT_NODE:
rc.append(node.data)
return ''.join(rc).strip()
def matmult(m, v):
""" Matrix-vector multiplication """
nrows = len(m)
w = [None] * nrows
for row in range(nrows):
w[row] = reduce(lambda x,y: x+y, list(map(lambda x,y: x*y, m[row], v)))
return w
def hexstring_to_float(hexString):
return float(int(hexString, 16))
def hexcolor_to_rgba(color):
"""
convert '#rrggbb' or '#rrggbbaa' to (r, g, b, a)
Doctests:
>>> def test(color):
... rgba = hexcolor_to_rgba(color)
... if rgba is None:
... print(repr(rgba))
... else:
... print(repr([round(c, 2) for c in rgba]))
>>> test("#1a2b3c")
[0.1, 0.17, 0.24, 1.0]
>>> test("#1a2b3c4d")
[0.1, 0.17, 0.24, 0.3]
>>> test("")
None
>>> test("1a2b3c")
None
>>> test("1a2b3c4d")
None
>>> test("#1a2b3c4dx")
None
>>> test("#1a2b3cx")
None
>>> test("#1a2bx")
None
>>> test("#1aXb3c4d")
None
"""
rgba = None
n = len(color)
if n == 7 or n == 9:
try:
rgba = [hexstring_to_float(color[1:3])/255,
hexstring_to_float(color[3:5])/255,
hexstring_to_float(color[5:7])/255]
if n == 9:
rgba.append(hexstring_to_float(color[7:9])/255)
else:
rgba.append(1.0)
except ValueError:
rgba = None
return rgba
class dictproperty(object):
""" Property implementation for dictionaries """
class _proxy(object):
def __init__(self, obj, fget, fset, fdel):
self._obj = obj
self._fget = fget
self._fset = fset
self._fdel = fdel
def __getitem__(self, key):
if self._fget is None:
raise TypeError("can't read item")
return self._fget(self._obj, key)
def __setitem__(self, key, value):
if self._fset is None:
raise TypeError("can't set item")
self._fset(self._obj, key, value)
def __delitem__(self, key):
if self._fdel is None:
raise TypeError("can't delete item")
self._fdel(self._obj, key)
def __init__(self, fget=None, fset=None, fdel=None, doc=None):
self._fget = fget
self._fset = fset
self._fdel = fdel
self.__doc__ = doc
def __get__(self, obj, objtype=None):
if obj is None:
return self
return self._proxy(obj, self._fget, self._fset, self._fdel)
def unpack_name_value_list(_list, num_values=2, key_type = str):
"""
Converts a list of strings into a dict of tuples.
Sample list: ['LWIN:label:super', ...]
":" in a value must be escaped as "\:"
"\" in a value must be escaped as "\\"
"""
result = {}
# Awkward fixed regexes; todo: Allow arbirary number of values
if num_values == 1:
pattern = re.compile(r"""([^\s:]+) # name
: ((?:\\.|[^\\:])*) # first value
""", re.VERBOSE)
elif num_values == 2:
pattern = re.compile(r"""([^\s:]+) # name
: ((?:\\.|[^\\:])*) # first value
: ((?:\\.|[^\\:])*) # second value
""", re.VERBOSE)
else:
assert(False) # unsupported number of values
for text in _list:
tuples = pattern.findall(text)
if tuples:
a = []
for t in tuples[0]:
t = t.replace("\\\\", "\\") # unescape backslash
t = t.replace("\\:", ":") # unescape separator
a.append(t)
if key_type == str:
item = {a[0] : (a[1:])}
elif key_type == int:
item = {int(a[0]) : (a[1:])}
else:
assert(False)
result.update(item)
return result
def pack_name_value_list(tuples, field_sep=":", name_sep=":"):
"""
Converts a dict of tuples to a string array. It creates one string
per dict key, with the key-string separated by <name_sep> and
individual tuple elements separated by <field_sep>.
"""
result = []
for t in list(tuples.items()):
text = str(t[0])
sep = name_sep
for value in t[1]:
value = value.replace("\\", "\\\\") # escape backslash
value = value.replace(sep, "\\"+sep) # escape separator
text += sep + '%s' % value
sep = field_sep
result.append(text)
return result
def merge_tuple_strings(text1, text2):
"""
Existing entries in text1 will be kept or overwritten by text2.
"""
tuples1 = unpack_name_value_tuples(text1)
tuples2 = unpack_name_value_tuples(text2)
for key,values in list(tuples2.items()):
tuples1[key] = values
return pack_name_value_tuples(tuples1)
class Rect:
"""
Simple rectangle class.
Left and top are included, right and bottom excluded.
Attributes can be accessed by name or by index, e.g. rect.x or rect[0].
"""
attributes = ("x", "y", "w", "h")
def __init__(self, x = 0, y = 0, w = 0, h = 0):
self.x = x
self.y = y
self.w = w
self.h = h
def __len__(self):
return 4
def __getitem__(self, index):
""" Collection interface for rvalues, unpacking with '*' operator """
return getattr(self, self.attributes[index])
def __setitem__(self, index, value):
""" Collection interface for lvalues """
return setattr(self, self.attributes[index], value)
def __str__(self):
return "Rect(" + \
" ".join("{}={:.1f}".format(a, getattr(self, a)) \
for a in self.attributes) + \
")"
def __repr__(self):
return self.__str__()
def __eq__(self, other):
return self.x == other.x and \
self.y == other.y and \
self.w == other.w and \
self.h == other.h
def __ne__(self, other):
return self.x != other.x or \
self.y != other.y or \
self.w != other.w or \
self.h != other.h
@staticmethod
def from_extents(x0, y0, x1, y1):
"""
New Rect from two points.
x0 and y0 are considered inside, x1 and y1 are just outside the Rect.
"""
return Rect(x0, y0, x1 - x0, y1 - y0)
@staticmethod
def from_position_size(position, size):
"""
New Rect from two tuples.
"""
return Rect(position[0], position[1], size[0], size[1])
@staticmethod
def from_points(p0, p1):
"""
New Rect from two points, left-top and right-botton.
The former lies inside, while the latter is considered to be
just outside the rect.
"""
return Rect(p0[0], p0[1], p1[0] - p0[0], p1[1] - p0[1])
def to_extents(self):
return self.x, self.y , self.x + self.w, self.y + self.h
def to_position_size(self):
return (self.x, self.y), (self.w, self.h)
def copy(self):
return Rect(self.x, self.y, self.w, self.h)
def is_empty(self):
return self.w <= 0 or self.h <= 0
def get_position(self):
return (self.x, self.y)
def get_size(self):
return (self.w, self.h)
def get_center(self):
return (self.x + self.w / 2.0, self.y + self.h / 2.0)
def top(self):
return self.y
def left(self):
return self.x
def right(self):
return self.x + self.w
def bottom(self):
return self.y + self.h
def left_top(self):
return self.x, self.y
def is_point_within(self, point):
""" True, if the given point lies inside the rectangle """
if self.x <= point[0] and \
self.x + self.w > point[0] and \
self.y <= point[1] and \
self.y + self.h > point[1]:
return True
return False
def round(self):
return Rect(round(self.x), round(self.y), round(self.w), round(self.h))
def int(self):
return Rect(int(self.x), int(self.y), int(self.w), int(self.h))
def scale(self, kx, ky = None):
if ky == None:
ky = kx
return Rect(self.x * kx, self.y * ky, self.w * kx, self.h * ky)
def offset(self, dx, dy):
"""
Returns a new Rect displaced by dx and dy.
"""
return Rect(self.x + dx, self.y + dy, self.w, self.h)
def inflate(self, dx, dy = None):
"""
Returns a new Rect which is larger by dx and dy on all sides.
"""
if dy is None:
dy = dx
return Rect(self.x-dx, self.y-dy, self.w+2*dx, self.h+2*dy)
def apply_border(self, left, top, right, bottom):
"""
Returns a new Rect which is larger by l, t, r, b on all sides.
"""
return Rect(self.x-left, self.y-top,
self.w+left+right, self.h+top+bottom)
def deflate(self, dx, dy = None):
"""
Returns a new Rect which is smaller by dx and dy on all sides.
"""
if dy is None:
dy = dx
return Rect(self.x+dx, self.y+dy, self.w-2*dx, self.h-2*dy)
def grow(self, kx, ky = None):
"""
Returns a new Rect with its size multiplied by kx, ky.
"""
if ky is None:
ky = kx
w = self.w * kx
h = self.h * ky
return Rect(self.x + (self.w - w) / 2.0,
self.y + (self.h - h) / 2.0,
w, h)
def intersects(self, rect):
"""
Doctests:
>>> Rect(0, 0, 1, 1).intersects(Rect(0, 0, 1, 1))
True
>>> Rect(0, 0, 1, 1).intersects(Rect(1, 0, 1, 1))
False
>>> Rect(1, 0, 1, 1).intersects(Rect(0, 0, 1, 1))
False
>>> Rect(0, 0, 1, 1).intersects(Rect(0, 1, 1, 1))
False
>>> Rect(0, 1, 1, 1).intersects(Rect(0, 0, 1, 1))
False
"""
#return not self.intersection(rect).is_empty()
return not (self.x >= rect.x + rect.w or \
self.x + self.w <= rect.x or \
self.y >= rect.y + rect.h or \
self.y + self.h <= rect.y)
def intersection(self, rect):
x0 = max(self.x, rect.x)
y0 = max(self.y, rect.y)
x1 = min(self.x + self.w, rect.x + rect.w)
y1 = min(self.y + self.h, rect.y + rect.h)
if x0 > x1 or y0 > y1:
return Rect()
else:
return Rect(x0, y0, x1 - x0, y1 - y0)
def union(self, rect):
x0 = min(self.x, rect.x)
y0 = min(self.y, rect.y)
x1 = max(self.x + self.w, rect.x + rect.w)
y1 = max(self.y + self.h, rect.y + rect.h)
return Rect(x0, y0, x1 - x0, y1 - y0)
def inscribe_with_aspect(self, rect, x_align = 0.5, y_align = 0.5):
""" Returns a new Rect with the aspect ratio of self
that fits inside the given rectangle.
"""
if self.is_empty() or rect.is_empty():
return Rect()
src_aspect = self.w / float(self.h)
dst_aspect = rect.w / float(rect.h)
result = rect.copy()
if dst_aspect > src_aspect:
result.w = rect.h * src_aspect
result.x += x_align * (rect.w - result.w)
else:
result.h = rect.w / src_aspect
result.y += y_align * (rect.h - result.h)
return result
def resize_to_aspect(self, aspect_rect):
"""
Resize self to get the aspect ratio of aspect_rect.
"""
if self.is_empty() or aspect_rect.is_empty():
return Rect()
src_aspect = aspect_rect.w / float(aspect_rect.h)
dst_aspect = self.w / float(self.h)
result = self.copy()
if dst_aspect > src_aspect:
result.w = self.h * src_aspect
else:
result.h = self.w / src_aspect
return result
def resize_to_aspect_range(self, aspect_rect, aspect_change_range):
"""
Resize self to get the aspect ratio of aspect_rect, but limited
but the given aspect range.
"""
if self.is_empty() or aspect_rect.is_empty():
return Rect()
r = aspect_rect
if r.h:
a0 = r.w / float(r.h)
a0_max = a0 * aspect_change_range[1]
a1 = self.w / float(self.h)
a = min(a1, a0_max)
r = Rect(0, 0, a, 1.0)
r = Rect(0, 0, a, 1.0)
return self.resize_to_aspect(r)
def align_rect(self, rect, x_align = 0.5, y_align = 0.5):
"""
Aligns the given rect inside of self.
x/y_align = 0.5 centers rect.
"""
x = self.x + (self.w - rect.w) * x_align
y = self.y + (self.h - rect.h) * y_align
return Rect(x, y, rect.w, rect.h)
def align_at_point(self, x, y, x_align = 0.5, y_align = 0.5):
"""
Aligns the given rect to a point.
x/y_align = 0.5 centers rect.
"""
x = x - self.w * x_align
y = y - self.h * y_align
return Rect(x, y, self.w, self.h)
def subdivide(self, columns, rows, x_spacing = None, y_spacing = None):
""" Divide self into columns x rows sub-rectangles """
if y_spacing is None:
y_spacing = x_spacing
if x_spacing is None:
x_spacing = 0
x, y, w, h = self
ws = (self.w - (columns - 1) * x_spacing) / float(columns)
hs = (self.h - (rows - 1) * y_spacing) / float(rows)
rects = []
y = self.y
for row in range(rows):
x = self.x
for column in range(columns):
rects.append(Rect(x, y, ws, hs))
x += ws + x_spacing
y += hs + y_spacing
return rects
def brighten(amount, r, g, b, a=0.0):
""" Make the given color brighter by amount a [-1.0...1.0] """
h, l, s = colorsys.rgb_to_hls(r, g, b)
l += amount
if l > 1.0:
l = 1.0
if l < 0.0:
l = 0.0
return list(colorsys.hls_to_rgb(h, l, s)) + [a]
def linint_rgba(k, rgba1, rgba2):
""" interpolate between two colors """
linint = lambda k, a, b: a + (b - a) * k
return [linint(k, rgba1[0], rgba12[0]),
linint(k, rgba1[1], rgba12[1]),
linint(k, rgba1[2], rgba12[2]),
linint(k, rgba1[3], rgba12[3])]
def roundrect_arc(context, rect, r = 15):
x0,y0 = rect.x, rect.y
x1,y1 = x0 + rect.w, y0 + rect.h
# top left
context.move_to(x0+r, y0)
# top right
context.line_to(x1-r,y0)
context.arc(x1-r, y0+r, r, -pi/2, 0)
# bottom right
context.line_to(x1, y1-r)
context.arc(x1-r, y1-r, r, 0, pi/2)
# bottom left
context.line_to(x0+r, y1)
context.arc(x0+r, y1-r, r, pi/2, pi)
# top left
context.line_to(x0, y0+r)
context.arc(x0+r, y0+r, r, pi, pi*1.5)
context.close_path ()
def roundrect_curve(context, rect, r_pct = 100):
"""
Uses B-splines for less even looks than with arcs, but
still allows for approximate circles at r_pct = 100.
"""
x0 = rect.x
y0 = rect.y
w = rect.w
h = rect.h
x1 = x0 + w
y1 = y0 + h
r = min(w, h) * min(r_pct/100.0, 0.5) # full range at 50%
k = (r-1) * r_pct/200.0 # position of control points for circular curves
line_to = context.line_to
curve_to = context.curve_to
# top left
context.move_to(x0+r, y0)
# top right
line_to(x1-r,y0)
curve_to(x1-k, y0, x1, y0+k, x1, y0+r)
# bottom right
line_to(x1, y1-r)
curve_to(x1, y1-k, x1-k, y1, x1-r, y1)
# bottom left
line_to(x0+r, y1)
curve_to(x0+k, y1, x0, y1-k, x0, y1-r)
# top left
line_to(x0, y0+r)
curve_to(x0, y0+k, x0+k, y0, x0+r, y0)
context.close_path ()
def rounded_polygon(cr, coords, r_pct, chamfer_size):
path = polygon_to_rounded_path(coords, r_pct, chamfer_size)
rounded_polygon_path_to_cairo_path(cr, path)
def polygon_to_rounded_path(coords, r_pct, chamfer_size):
"""
Doctests:
# simple rectangle, chamfer radius 0.
>>> coords = [0, 0, 10, 0, 10, 10, 0, 10]
>>> polygon_to_rounded_path(coords, 0, 0) # doctest: +NORMALIZE_WHITESPACE
[(0.0, 0.0), (10.0, 0.0), (10.0, 0.0, 10.0, 0.0, 10.0, 0.0),
(10.0, 10.0), (10.0, 10.0, 10.0, 10.0, 10.0, 10.0),
(0.0, 10.0), (0.0, 10.0, 0.0, 10.0, 0.0, 10.0),
(0.0, 0.0), (0.0, 0.0, 0.0, 0.0, 0.0, 0.0)]
"""
path = []
r = chamfer_size * 2.0 * min(r_pct/100.0, 0.5) # full range at 50%
n = len(coords)
for i in range(0, n, 2):
i0 = i
i1 = i + 2
if i1 >= n:
i1 -= n
i2 = i + 4
if i2 >= n:
i2 -= n
x0 = coords[i0]
y0 = coords[i0+1]
x1 = coords[i1]
y1 = coords[i1+1]
x2 = coords[i2]
y2 = coords[i2+1]
vax = x1 - x0
vay = y1 - y0
la = sqrt(vax*vax + vay*vay)
uax = vax / la
uay = vay / la
vbx = x2 - x1
vby = y2 - y1
lb = sqrt(vbx*vbx + vby*vby)
ubx = vbx / lb
uby = vby / lb
ra = min(r, la * 0.5) # offset of curve begin and end
rb = min(r, lb * 0.5)
ka = (ra-1) * r_pct/200.0 # offset of control points
kb = (rb-1) * r_pct/200.0
if i == 0:
x = x0 + ra*uax
y = y0 + ra*uay
path.append((x, y))
x = x1 - ra*uax
y = y1 - ra*uay
path.append((x, y))
x = x1 + rb*ubx
y = y1 + rb*uby
c0x = x1 - ka*uax
c0y = y1 - ka*uay
c1x = x1 + kb*ubx
c1y = y1 + kb*uby
path.append((x, y, c0x, c0y, c1x, c1y))
return path
def rounded_polygon_path_to_cairo_path(cr, path):
if path:
cr.move_to(*path[0])
for i in range(1, len(path), 2):
p = path[i]
cr.line_to(p[0], p[1])
p = path[i+1]
cr.curve_to(p[2], p[3], p[4], p[5], p[0], p[1])
cr.close_path()
def rounded_path(cr, path, r_pct, chamfer_size):
for polygon in path.iter_polygons():
rounded_polygon(cr, polygon, r_pct, chamfer_size)
def round_corners(cr, r, x, y, w, h):
"""
Paint 4 round corners.
Currently x, y are ignored and assumed to be 0.
"""
# top-left
cr.curve_to (0, r, 0, 0, r, 0)
cr.line_to (0, 0)
cr.close_path()
cr.fill()
# top-right
cr.curve_to (w, r, w, 0, w - r, 0)
cr.line_to (w, 0)
cr.close_path()
cr.fill()
# bottom-left
cr.curve_to (r, h, 0, h, 0, h - r)
cr.line_to (0, h)
cr.close_path()
cr.fill()
# bottom-right
cr.curve_to (w, h - r, w, h, w - r, h)
cr.line_to (w, h)
cr.close_path()
cr.fill()
def gradient_line(rect, alpha):
# Find rotated gradient start and end points.
# Line end points follow the largest extent of the rotated rectangle.
# The gradient reaches across the entire rectangle.
x0, y0, w, h = rect.x, rect.y, rect.w, rect.h
a = w / 2.0
b = h / 2.0
coords = [(-a, -b), (a, -b), (a, b), (-a, b)]
vx = [c[0]*cos(alpha)-c[1]*sin(alpha) for c in coords]
dx = max(vx) - min(vx)
r = dx / 2.0
return (r * cos(alpha) + x0 + a,
r * sin(alpha) + y0 + b,
-r * cos(alpha) + x0 + a,
-r * sin(alpha) + y0 + b)
import cairo
def drop_shadow(cr, pattern, bounds, blur_radius = 4.0, offset = (0, 0),
alpha=0.06, steps=4):
"""
Mostly works, but has issues with clipping artefacts for
damage rects smaller than the full window rect.
"""
origin = bounds.get_center()
cr.set_source_rgba(0.0, 0.0, 0.0, alpha)
for i in range(steps):
x = (i if i else 0.5) / float(steps)
k = sqrt(abs(log(1-x))) * 0.7 * blur_radius # gaussian
#k = i / float(steps) * blur_radius # linear
x_scale = (bounds.w + k) / bounds.w
y_scale = (bounds.h + k) / bounds.h
cr.save()
cr.translate(*origin)
cr.scale(x_scale, y_scale)
cr.translate(-origin[0] + offset[0], -origin[1] + offset[1])
cr.mask(pattern)
cr.restore()
@contextmanager
def timeit(s, out=sys.stdout):
import time, gc
if out:
gc.collect()
gc.collect()
gc.collect()
t = time.time()
text = s if s else "timeit"
out.write("%-15s " % text)
out.flush()
yield None
out.write("%10.3fms\n" % ((time.time() - t)*1000))
else:
yield None
class Fade:
""" Helper for opacity fading """
@staticmethod
def sin_fade(start_time, duration, start_value, target_value):
elapsed = time.time() - start_time
if duration:
lin_progress = min(1.0, elapsed / duration)
else:
lin_progress = 1.0
return(Fade.sin_int(lin_progress, start_value, target_value),
lin_progress >= 1.0)
@staticmethod
def sin_int(lin_progress, start_value, target_value):
sin_progress = (sin(lin_progress * pi - pi / 2.0) + 1.0) / 2.0
return sin_progress * (target_value - start_value) + start_value
class TreeItem(object):
"""
Abstract base class of tree nodes.
Base class of nodes in layout- and color scheme tree.
"""
# id string of the item
id = None
# parent item in the tree
parent = None
# child items
items = ()
def set_items(self, items):
self.items = items
for item in items:
item.parent = self
def append_item(self, item):
if self.items:
self.items.append(item)
else:
self.items = [item]
item.parent = self
def append_items(self, items):
if self.items:
self.items += items
else:
self.items = items
for item in items:
item.parent = self
def get_parent(self):
return self.parent
def find_ids(self, ids):
""" find all items with matching id """
for item in self.iter_items():
if item.id in ids:
yield item
def find_classes(self, item_classes):
""" find all items with matching id """
for item in self.iter_items():
if isinstance(item, item_classes):
yield item
def iter_items(self):
"""
Iterates through all items of the tree.
"""
yield self
for item in self.items:
for child in item.iter_items():
yield child
def iter_depth_first(self):
"""
Iterates depth first through the tree.
"""
for item in self.items:
for child in item.iter_depth_first():
yield child
yield self
def iter_to_root(self):
item = self
while item:
yield item
item = item.parent
class Version(object):
""" Simple class to encapsulate a version number """
major = 0
minor = 0
def __init__(self, major, minor = 0):
self.major = major
self.minor = minor
def __str__(self):
return self.to_string()
@staticmethod
def from_string(version):
components = version.split(".")
major = 0
minor = 0
try:
if len(components) >= 1:
major = int(components[0])
if len(components) >= 2:
minor = int(components[1])
except ValueError:
pass
return Version(major, minor)
def to_string(self):
return "{major}.{minor}".format(major=self.major, minor=self.minor)
def __eq__(self, other): return self._cmp(other) == 0
def __ne__(self, other): return self._cmp(other) != 0
def __lt__(self, other): return self._cmp(other) < 0
def __le__(self, other): return self._cmp(other) <= 0
def __gt__(self, other): return self._cmp(other) > 0
def __ge__(self, other): return self._cmp(other) >= 0
def _cmp(self, other):
if self.major < other.major:
return -1
if self.major > other.major:
return 1
if self.minor < other.minor:
return -1
if self.minor > other.minor:
return 1
return 0
class Process:
""" Process utilities """
@staticmethod
def get_cmdline(pid):
""" Returns the command line for process id pid """
cmdline = ""
with open("/proc/%s/cmdline" % pid) as f:
cmdline = f.read()
return cmdline.split("\0")
@staticmethod
def get_process_name(pid):
cmdline = Process.get_cmdline(pid)
if cmdline:
return os.path.basename(cmdline[0])
return ""
@staticmethod
def get_launch_process_cmdline():
""" Checks if this process was launched by <process_name> """
ppid = os.getppid()
if ppid:
cmdline = Process.get_cmdline(ppid)
return cmdline
return []
@staticmethod
def was_launched_by(process_name):
""" Checks if this process was launched by <process_name> """
cmdline = " ".join(Process.get_launch_process_cmdline())
return process_name in cmdline
def exists_in_path(basename):
"""
Does a file with this basename exist anywhere in PATH's directories?
"""
for path in os.environ["PATH"].split(os.pathsep):
filename = os.path.join(path, basename)
if os.path.isfile(filename):
return True
return False
def chmodtree(path, mode = 0o777, only_dirs = False):
"""
Change permissions of all files of the given directory tree.
Raises OSError.
"""
os.chmod(path, mode)
for root, dirs, files in os.walk(path):
for d in dirs:
os.chmod(os.path.join(root, d), mode)
if not only_dirs:
for f in files:
os.chmod(os.path.join(root, f), mode)
def unicode_str(obj, encoding = "utf-8"):
"""
Safe str() function that always returns an unicode string.
Do nothing if the string was already unicode.
"""
if sys.version_info.major >= 3: # python 3?
return str(obj)
if type(obj) == unicode: # unicode string?
return obj
if hasattr(obj, "__unicode__"): # Exception object?
return unicode(obj)
return str(obj).decode("utf-8") # strings, numbers, ...
def open_utf8(filename, mode = "r"):
"""
Python 2 compatible replacement for builtin open().
Python 3 added the encoding parameter.
"""
if sys.version_info.major == 2:
return open(filename, mode)
else:
return open(filename, mode=mode, encoding="UTF-8")
def permute_mask(mask):
"""
Return all permutations of the bits in mask.
Doctests:
>>> permute_mask(1)
[0, 1]
>>> permute_mask(5)
[0, 1, 4, 5]
>>> permute_mask(14)
[0, 2, 4, 6, 8, 10, 12, 14]
"""
bit_masks = [bit_mask for bit_mask in (1<<bit for bit in range(8)) \
if mask & bit_mask]
n = len(bit_masks)
perms = []
for i in range(2**n):
m = 0
for bit in range(n):
if i & 1<<bit:
m |= bit_masks[bit]
perms.append(m)
return perms
class Translation:
"""
Translations occasionally contain errors in format fields that
prevent onboard from starting up. This class aims to catch these
errors gracefully, report and ignore bad translations and then
just go on.
Common errors have been:
- bad field names, e.g. "{filename}" was translated "{path}"
- bad anonymous fields, e.g. "{}" was translated "{ }"
"""
@staticmethod
def install(domain):
""" setup gettext, install _() function for all modules """
try:
import builtins
except ImportError:
builtins = sys.modules["__builtin__"] # python 2.x
t = Translation()
t.translation = gettext.translation(domain, fallback=True)
builtins.__dict__['_'] = t.ugettext
builtins.__dict__['_format'] = t.format
def ugettext(self, msgid):
if not msgid:
return unicode_str("")
if sys.version_info.major < 3: # python 2?
return self.translation.ugettext(msgid)
return self.translation.gettext(msgid)
def format(self, msgid, *args, **kwargs):
""" Safe replacement for str.format() """
msgstr = self.ugettext(msgid)
try:
result = msgstr.format(*args, **kwargs)
except (KeyError, IndexError, UnicodeDecodeError) as e:
result = msgid.format(*args, **kwargs)
_logger.warning("_format: Skipping bad translation "
"msgid='{}' msgstr='{}' {}: {}" \
.format(msgid, msgstr,
e.__class__.__name__,
unicode_str(e)))
return result
class EventSource(object):
""" Simple event handling based on python callbacks """
_event_queue = None # for optional async delivery
def __init__(self, event_names):
self._callbacks = dict((e,[]) for e in event_names)
def cleanup(self):
self.flush_events()
def connect(self, event_name, callback):
callbacks = self._callbacks[event_name]
if not callback in callbacks:
callbacks.append(callback)
def disconnect(self, event_name, callback):
callbacks = self._callbacks[event_name]
if callback in callbacks:
callbacks.remove(callback)
def has_listeners(self, event_names = None):
"""
Are there callbacks registered for the given event_names or any event?
"""
if event_names:
return any(bool(self._callbacks[name]) for name in event_names)
return any(bool(value) for value in self._callbacks.values())
def emit(self, event_name, *args, **kwargs):
"""
Send event, call all listener's callbacks.
"""
#print("emit", event_name, list(args), kwargs)
for callback in self._callbacks[event_name]:
callback(*args, **kwargs)
def emit_async(self, event_name, *args, **kwargs):
"""
Queue up asynchronous event.
"""
#print("emit_async", event_name, list(args), kwargs)
event = (event_name, args, kwargs)
if self._event_queue is None:
self._event_queue = [event]
GLib.idle_add(self.flush_events)
else:
self._event_queue.append(event)
def flush_events(self):
"""
Send pending asynchronous events.
"""
if not self._event_queue is None:
for event_name, args, kwargs in self._event_queue:
self.emit(event_name, *args, **kwargs)
self.clear_events()
def clear_events(self):
"""
Cancel pending asynchronous events.
"""
self._event_queue = None
class XDGDirs:
"""
Build paths compliant with XDG Base Directory Specification.
http://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html
Doctests:
>>> old_env = os.environ.copy()
>>> os.environ["HOME"] = "/home/test_user"
# XDG_CONFIG_HOME unavailable
>>> os.environ["XDG_CONFIG_HOME"] = ""
>>> XDGDirs.get_config_home("onboard/test.dat")
'/home/test_user/.config/onboard/test.dat'
# XDG_CONFIG_HOME available
>>> os.environ["XDG_CONFIG_HOME"] = "/home/test_user/.config_home"
>>> XDGDirs.get_config_home("onboard/test.dat")
'/home/test_user/.config_home/onboard/test.dat'
# XDG_DATA_HOME unavailable
>>> os.environ["XDG_DATA_HOME"] = ""
>>> XDGDirs.get_data_home("onboard/test.dat")
'/home/test_user/.local/share/onboard/test.dat'
# XDG_DATA_HOME available
>>> os.environ["XDG_DATA_HOME"] = "/home/test_user/.data_home"
>>> XDGDirs.get_data_home("onboard/test.dat")
'/home/test_user/.data_home/onboard/test.dat'
# XDG_CONFIG_DIRS unvailable
>>> os.environ["XDG_CONFIG_HOME"] = ""
>>> os.environ["XDG_CONFIG_DIRS"] = ""
>>> XDGDirs.get_all_config_dirs("onboard/test.dat")
['/home/test_user/.config/onboard/test.dat', '/etc/xdg/onboard/test.dat']
# XDG_CONFIG_DIRS available
>>> os.environ["XDG_CONFIG_HOME"] = ""
>>> os.environ["XDG_CONFIG_DIRS"] = "/etc/xdg/xdg-ubuntu:/etc/xdg"
>>> XDGDirs.get_all_config_dirs("onboard/test.dat")
['/home/test_user/.config/onboard/test.dat', \
'/etc/xdg/xdg-ubuntu/onboard/test.dat', \
'/etc/xdg/onboard/test.dat']
# XDG_DATA_DIRS unvailable
>>> os.environ["XDG_DATA_HOME"] = ""
>>> os.environ["XDG_DATA_DIRS"] = ""
>>> XDGDirs.get_all_data_dirs("onboard/test.dat")
['/home/test_user/.local/share/onboard/test.dat', \
'/usr/local/share/onboard/test.dat', \
'/usr/share/onboard/test.dat']
# XDG_DATA_DIRS available
>>> os.environ["XDG_DATA_HOME"] = ""
>>> os.environ["XDG_DATA_DIRS"] = "/usr/share/gnome:/usr/local/share/:/usr/share/"
>>> XDGDirs.get_all_data_dirs("onboard/test.dat")
['/home/test_user/.local/share/onboard/test.dat', \
'/usr/share/gnome/onboard/test.dat', \
'/usr/local/share/onboard/test.dat', \
'/usr/share/onboard/test.dat']
>>> os.environ = old_env
"""
@staticmethod
def get_config_home(file = None):
"""
User specific config directory.
"""
path = os.environ.get("XDG_CONFIG_HOME")
if path and not os.path.isabs(path):
_logger.warning("XDG_CONFIG_HOME doesn't contain an absolute path,"
"ignoring.")
path = None
if not path:
path = os.path.join(os.path.expanduser("~"), ".config")
if file:
path = os.path.join(path, file)
return path
@staticmethod
def get_config_dirs():
"""
Config directories ordered by preference.
"""
paths = []
value = os.environ.get("XDG_CONFIG_DIRS")
if not value:
value = "/etc/xdg"
paths = value.split(":")
paths = [p for p in paths if os.path.isabs(p)]
return paths
@staticmethod
def get_all_config_dirs(file = None):
paths = [XDGDirs.get_config_home()] + XDGDirs.get_config_dirs()
if file:
paths = [os.path.join(p, file) for p in paths]
return paths
@staticmethod
def find_config_files(file):
""" Find file in all config directories, highest priority first. """
paths = XDGDirs.get_all_config_dirs(file)
return [p for p in paths if os.path.isfile(path) and \
os.access(filename, os.R_OK)]
@staticmethod
def find_config_file(file):
""" Find file of highest priority """
paths = XDGDirs.find_config_files(file)
if paths:
return paths[0]
return None
@staticmethod
def get_data_home(file = None):
"""
User specific data directory.
"""
path = os.environ.get("XDG_DATA_HOME")
if path and not os.path.isabs(path):
_logger.warning("XDG_DATA_HOME doesn't contain an absolute path,"
"ignoring.")
path = None
if not path:
path = os.path.join(os.path.expanduser("~"), ".local", "share")
if file:
path = os.path.join(path, file)
return path
@staticmethod
def get_data_dirs():
"""
Data directories ordered by preference.
"""
paths = []
value = os.environ.get("XDG_DATA_DIRS")
if not value:
value = "/usr/local/share/:/usr/share/"
paths = value.split(":")
paths = [p for p in paths if os.path.isabs(p)]
return paths
@staticmethod
def get_all_data_dirs(file = None):
paths = [XDGDirs.get_data_home()] + XDGDirs.get_data_dirs()
if file:
paths = [os.path.join(p, file) for p in paths]
return paths
@staticmethod
def find_data_files(file):
""" Find file in all data directories, highest priority first. """
paths = XDGDirs.get_all_data_dirs(file)
return [p for p in paths if os.path.isfile(path) and \
os.access(filename, os.R_OK)]
@staticmethod
def find_data_file(file):
""" Find file of highest priority """
paths = XDGDirs.find_data_files(file)
if paths:
return paths[0]
return None
def assure_user_dir_exists(path):
"""
If necessary create user XDG directory.
Raises OSError.
"""
exists = os.path.exists(path)
if not exists:
try:
os.makedirs(path, mode = 0o700)
exists = True
except OSError as ex:
_logger.error(_format("failed to create directory '{}': {}",
path, unicode_str(ex)))
raise ex
return exists
_tag_pattern = re.compile(
"""(?:
<[\w\-_]+ # tag
(?:\s+[\w\-_]+=["'][^"']*["'])* # attributes
/?>
) |
(?:
</?[\w\-_]+>
)
""", re.UNICODE|re.DOTALL|re.VERBOSE)
def _iter_markup(markup):
"""
Iterate over tag and non-tag sections of a markup string.
Doctests:
# Never yield for empty string
>>> list(_iter_markup(""))
[]
# must return tag- as well as non-tag sections
>>> list(_iter_markup("<tt>test</tt>test2"))
[('<tt>', True), ('test', False), ('</tt>', True), ('test2', False)]
# should recognize tags with attributes
>>> list(_iter_markup('<tag attr="value">'))
[('<tag attr="value">', True)]
>>> list(_iter_markup('<tag attr="v alue" attr2="234">'))
[('<tag attr="v alue" attr2="234">', True)]
# should recognize tags with end shortcut
>>> list(_iter_markup('<tag/> <tag2 attr="value"/>'))
[('<tag/>', True), (' ', False), ('<tag2 attr="value"/>', True)]
# must not modify input, i.e. concatenated result must equal input text
>>> markup = "asd <tt>t est\\n ds</tt> te st2 "
>>> "".join([text for text, tag in _iter_markup(markup)]) == markup
True
"""
pos = 0
matches = _tag_pattern.finditer(markup)
for m in matches:
text = markup[pos:m.start()]
if text:
yield text, False
yield m.group(), True
pos = m.end()
text = markup[pos:]
if text:
yield text, False
def escape_markup(markup, preserve_tags = False):
"""
Escape strings of uncertain content for use in Gtk markup.
If requested, markup tags are skipped and won't be escaped.
Doctests:
>>> escape_markup("&<>")
'&<>'
# tags must be escaped when preserve_tags is False
>>> escape_markup("<big>&<></big>")
'<big>&<></big>'
# tags must not be escaped when preserve_tags is True
>>> escape_markup('<big>&</big>><tag attr="value"><</tag>1<3', True)
'<big>&</big>><tag attr="value"><</tag>1<3'
# whitespace must be preserved
>>> escape_markup("test <big> test2& </big> test3", True)
'test <big> test2& </big> test3'
"""
result = ""
for text, is_tag in _iter_markup(markup):
if is_tag and preserve_tags:
result += text
else:
try:
result += GLib.markup_escape_text(text)
except Exception as ex: # private exception gi._glib.GError
_logger.error("markup_escape_text failed for "
"'{}': {}" \
.format(text, unicode_str(ex)))
return result
class TermColors(object):
""" Singleton class providing ANSI terminal color codes """
# sequence ids
BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE, \
BOLD, RESET = range(10)
# sequence cache
sequences = {}
def __new__(cls, *args, **kwargs):
""" Singleton magic. """
if not hasattr(cls, "self"):
cls.self = object.__new__(cls, *args, **kwargs)
cls.self.construct()
return cls.self
def __init__(self):
""" Called multiple times, do not use. """
pass
def construct(self):
""" Singleton constructor, runs only once. """
def get(self, seq_id):
"""
Return ANSI character sequence for the given sequence id,
e.g. color index.
"""
seq = self.sequences.get(seq_id)
if seq is None:
seq = ""
if not seq_id is None:
if seq_id >= self.BLACK and seq_id <= self.WHITE:
seq = self._tput("setaf " + str(seq_id))
elif seq_id == self.BOLD:
seq = self._tput("bold")
elif seq_id == self.RESET:
seq = self._tput("sgr0")
self.sequences[seq_id] = seq
return seq
@staticmethod
def _tput(params):
try:
s = subprocess.check_output(("tput " + params).split())
return s.decode("ASCII")
except subprocess.CalledProcessError:
return ""
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