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#!/usr/bin/env python
#
# by
# Robin Wittler <real@the-real.org> (speedometer mode)
# and
# Chen Wei <weichen302@gmx.com> (nautical mode)
#
# SPDX-License-Identifier: BSD-2-clause
# This code runs compatibly under Python 2 and 3.x for x >= 2.
# Preserve this property!
from __future__ import absolute_import, print_function, division
from math import pi
from math import cos
from math import sin
from math import sqrt
from math import radians
from socket import error as SocketError
import gps
gps_version = '3.18-dev'
if gps.__version__ != gps_version:
sys.stderr.write("xgpspeed: ERROR: need gps module version %s, got %s\n" %
(gps_version, gps.__version__))
sys.exit(1)
import cairo
# Gtk3 imports. Gtk3 requires the require_version(), which then causes
# pylint to complain about the subsequent "non-top" imports.
import gi
gi.require_version('Gtk', '3.0')
from gi.repository import Gtk # pylint: disable=wrong-import-position
from gi.repository import Gdk # pylint: disable=wrong-import-position
from gi.repository import GObject # pylint: disable=wrong-import-position
class Speedometer(Gtk.DrawingArea):
def __init__(self, speed_unit=None):
Gtk.DrawingArea.__init__(self)
self.MPH_UNIT_LABEL = 'mph'
self.KPH_UNIT_LABEL = 'kmh'
self.KNOTS_UNIT_LABEL = 'knots'
self.conversions = {
self.MPH_UNIT_LABEL: gps.MPS_TO_MPH,
self.KPH_UNIT_LABEL: gps.MPS_TO_KPH,
self.KNOTS_UNIT_LABEL: gps.MPS_TO_KNOTS
}
self.speed_unit = speed_unit or self.MPH_UNIT_LABEL
if self.speed_unit not in self.conversions:
raise TypeError(
'%s is not a valid speed unit'
% (repr(speed_unit))
)
class LandSpeedometer(Speedometer):
def __init__(self, speed_unit=None):
Speedometer.__init__(self, speed_unit)
self.connect('size-allocate', self.on_size_allocate)
self.width = self.height = 0
self.connect('draw', self.draw_s)
self.long_ticks = (2, 1, 0, -1, -2, -3, -4, -5, -6, -7, -8)
self.short_ticks = (0.1, 0.2, 0.3, 0.4, 0.6, 0.7, 0.8, 0.9)
self.long_inset = lambda x: 0.1 * x
self.middle_inset = lambda x: self.long_inset(x) / 1.5
self.short_inset = lambda x: self.long_inset(x) / 3
self.res_div = 10.0
self.res_div_mul = 1
self.last_speed = 0
self.nums = {
-8: 0,
-7: 10,
-6: 20,
-5: 30,
-4: 40,
-3: 50,
-2: 60,
-1: 70,
0: 80,
1: 90,
2: 100
}
def on_size_allocate(self, _unused, allocation):
self.width = allocation.width
self.height = allocation.height
def draw_s(self, _unused, _event, _empty=None):
self.cr = self.get_window().cairo_create()
self.cr.rectangle(0, 0, self.width, self.height)
self.cr.clip()
x, y = self.get_x_y()
width, height = self.get_window().get_geometry()[2:4]
radius = self.get_radius(width, height)
self.cr.set_line_width(radius / 100)
self.draw_arc_and_ticks(width, height, radius, x, y)
self.draw_needle(self.last_speed, radius, x, y)
self.draw_speed_text(self.last_speed, radius, x, y)
def draw_arc_and_ticks(self, width, height, radius, x, y):
self.cr.set_source_rgb(1.0, 1.0, 1.0)
self.cr.rectangle(0, 0, width, height)
self.cr.fill()
self.cr.set_source_rgb(0.0, 0.0, 0.0)
# draw the speedometer arc
self.cr.arc_negative(x, y, radius, radians(60), radians(120))
self.cr.stroke()
long_inset = self.long_inset(radius)
middle_inset = self.middle_inset(radius)
short_inset = self.short_inset(radius)
# draw the ticks
for i in self.long_ticks:
self.cr.move_to(
x + (radius - long_inset) * cos(i * pi / 6.0),
y + (radius - long_inset) * sin(i * pi / 6.0)
)
self.cr.line_to(
(x + (radius + (self.cr.get_line_width() / 2))
* cos(i * pi / 6.0)),
(y + (radius + (self.cr.get_line_width() / 2))
* sin(i * pi / 6.0))
)
self.cr.select_font_face(
'Georgia',
cairo.FONT_SLANT_NORMAL,
)
self.cr.set_font_size(radius / 10)
self.cr.save()
_num = str(self.nums.get(i) * self.res_div_mul)
(
_x_bearing,
_y_bearing,
t_width,
t_height,
_x_advance,
_y_advance
) = self.cr.text_extents(_num)
if i in (-8, -7, -6, -5, -4):
self.cr.move_to(
(x + (radius - long_inset - (t_width / 2))
* cos(i * pi / 6.0)),
(y + (radius - long_inset - (t_height * 2))
* sin(i * pi / 6.0))
)
elif i in (-2, -1, 0, 2, 1):
self.cr.move_to(
(x + (radius - long_inset - (t_width * 1.5))
* cos(i * pi / 6.0)),
(y + (radius - long_inset - (t_height * 2))
* sin(i * pi / 6.0))
)
elif i in (-3,):
self.cr.move_to(
(x - t_width / 2),
(y - radius + self.long_inset(radius) * 2 + t_height)
)
self.cr.show_text(_num)
self.cr.restore()
if i != self.long_ticks[0]:
self.cr.move_to(
x + (radius - middle_inset) * cos((i + 0.5) * pi / 6.0),
y + (radius - middle_inset) * sin((i + 0.5) * pi / 6.0)
)
self.cr.line_to(
x + (radius + (self.cr.get_line_width() / 2)) *
cos((i + 0.5) * pi / 6.0),
y + (radius + (self.cr.get_line_width() / 2)) *
sin((i + 0.5) * pi / 6.0)
)
for z in self.short_ticks:
w_half = self.cr.get_line_width() / 2
if i < 0:
self.cr.move_to(
x + (radius - short_inset) * cos((i + z) * pi / 6.0),
y + (radius - short_inset) * sin((i + z) * pi / 6.0)
)
self.cr.line_to(
x + (radius + w_half) * cos((i + z) * pi / 6.0),
y + (radius + w_half) * sin((i + z) * pi / 6.0)
)
else:
self.cr.move_to(
x + (radius - short_inset) * cos((i - z) * pi / 6.0),
y + (radius - short_inset) * sin((i - z) * pi / 6.0)
)
self.cr.line_to(
x + (radius + w_half) * cos((i - z) * pi / 6.0),
y + (radius + w_half) * sin((i - z) * pi / 6.0)
)
self.cr.stroke()
def draw_needle(self, speed, radius, x, y):
self.cr.save()
inset = self.long_inset(radius)
speed = speed * self.conversions.get(self.speed_unit)
speed = speed / (self.res_div * self.res_div_mul)
actual = self.long_ticks[-1] + speed
if actual > self.long_ticks[0]:
self.res_div_mul += 1
speed = speed / (self.res_div * self.res_div_mul)
actual = self.long_ticks[-1] + speed
self.cr.move_to(x, y)
self.cr.line_to(
x + (radius - (2 * inset)) * cos(actual * pi / 6.0),
y + (radius - (2 * inset)) * sin(actual * pi / 6.0)
)
self.cr.stroke()
self.cr.restore()
def draw_speed_text(self, speed, radius, x, y):
self.cr.save()
speed = '%.2f %s' % (
speed * self.conversions.get(self.speed_unit),
self.speed_unit
)
self.cr.select_font_face(
'Georgia',
cairo.FONT_SLANT_NORMAL,
# cairo.FONT_WEIGHT_BOLD
)
self.cr.set_font_size(radius / 10)
_x_bearing, _y_bearing, t_width, _t_height = \
self.cr.text_extents(speed)[:4]
self.cr.move_to((x - t_width / 2),
(y + radius) - self.long_inset(radius))
self.cr.show_text(speed)
self.cr.restore()
def get_x_y(self):
rect = self.get_allocation()
x = (rect.x + rect.width / 2.0)
y = (rect.y + rect.height / 2.0) - 20
return x, y
def get_radius(self, width, height):
return min(width / 2.0, height / 2.0) - 20
class NauticalSpeedometer(Speedometer):
HEADING_SAT_GAP = 0.8
SAT_SIZE = 10 # radius of the satellite circle in skyview
def __init__(self, speed_unit=None, maxspeed=100, rotate=0.0):
Speedometer.__init__(self, speed_unit)
self.connect('size-allocate', self.on_size_allocate)
self.width = self.height = 0
self.connect('draw', self.draw_s)
self.long_inset = lambda x: 0.05 * x
self.mid_inset = lambda x: self.long_inset(x) / 1.5
self.short_inset = lambda x: self.long_inset(x) / 3
self.last_speed = 0
self.satellites = []
self.last_heading = 0
self.maxspeed = int(maxspeed)
self.rotate = radians(rotate)
def polar2xy(self, radius, angle, polex, poley):
'''convert Polar coordinate to Cartesian coordinate system
the y axis in pygtk points downward
Args:
radius:
angle: azimuth from from Polar coordinate system, in radian
polex and poley are the Cartesian coordinate of the pole
return a tuple contains (x, y)'''
angle = (angle + self.rotate) % (pi * 2) # Note reversed sense
return (polex + cos(angle) * radius, poley - sin(angle) * radius)
def on_size_allocate(self, _unused, allocation):
self.width = allocation.width
self.height = allocation.height
def draw_s(self, _unused, _event, _empty=None):
self.cr = self.get_window().cairo_create()
self.cr.rectangle(0, 0, self.width, self.height)
self.cr.clip()
x, y = self.get_x_y()
width, height = self.get_window().get_geometry()[2:4]
radius = self.get_radius(width, height)
self.cr.set_line_width(radius / 100)
self.draw_arc_and_ticks(width, height, radius, x, y)
self.draw_heading(20, self.last_heading, radius, x, y)
for sat in self.satellites:
self.draw_sat(sat, radius * NauticalSpeedometer.HEADING_SAT_GAP,
x, y)
self.draw_speed(radius, x, y)
def draw_text(self, x, y, text, fontsize=10):
'''draw text at given location
Args:
x, y is the center of textbox'''
txt = str(text)
self.cr.new_sub_path()
self.cr.set_source_rgba(0, 0, 0)
self.cr.select_font_face('Sans',
cairo.FONT_SLANT_NORMAL,
cairo.FONT_WEIGHT_BOLD)
self.cr.set_font_size(fontsize)
(_x_bearing, _y_bearing,
t_width, t_height) = self.cr.text_extents(txt)[:4]
# set the center of textbox
self.cr.move_to(x - t_width / 2, y + t_height / 2)
self.cr.show_text(txt)
def draw_arc_and_ticks(self, width, height, radius, x, y):
'''Draw a serial of circle, with ticks in outmost circle'''
self.cr.set_source_rgb(1.0, 1.0, 1.0)
self.cr.rectangle(0, 0, width, height)
self.cr.fill()
self.cr.set_source_rgba(0, 0, 0)
# draw the speedmeter arc
rspeed = radius + 50
self.cr.arc(x, y, rspeed, 2 * pi / 3, 7 * pi / 3)
self.cr.set_source_rgba(0, 0, 0, 1.0)
self.cr.stroke()
s_long = self.long_inset(rspeed)
s_middle = self.mid_inset(radius)
s_short = self.short_inset(radius)
for i in range(11):
# draw the large ticks
alpha = (8 - i) * pi / 6
self.cr.move_to(*self.polar2xy(rspeed, alpha, x, y))
self.cr.set_line_width(radius / 100)
self.cr.line_to(*self.polar2xy(rspeed - s_long, alpha, x, y))
self.cr.stroke()
self.cr.set_line_width(radius / 200)
xf, yf = self.polar2xy(rspeed + 10, alpha, x, y)
stxt = (self.maxspeed // 10) * i
self.draw_text(xf, yf, stxt, fontsize=radius / 15)
for i in range(1, 11):
# middle tick
alpha = (8 - i) * pi / 6
beta = (17 - 2 * i) * pi / 12
self.cr.move_to(*self.polar2xy(rspeed, beta, x, y))
self.cr.line_to(*self.polar2xy(rspeed - s_middle, beta, x, y))
# short tick
for n in range(10):
gamma = alpha + n * pi / 60
self.cr.move_to(*self.polar2xy(rspeed, gamma, x, y))
self.cr.line_to(*self.polar2xy(rspeed - s_short, gamma, x, y))
# draw the heading arc
self.cr.new_sub_path()
self.cr.arc(x, y, radius, 0, 2 * pi)
self.cr.stroke()
self.cr.arc(x, y, radius - 20, 0, 2 * pi)
self.cr.set_source_rgba(0, 0, 0, 0.20)
self.cr.fill()
self.cr.set_source_rgba(0, 0, 0)
# heading label 90/180/270
for n in range(0, 4):
label = str(n * 90)
# self.cr.set_source_rgba(0, 1, 0)
# radius * (1 + NauticalSpeedometer.HEADING_SAT_GAP),
tbox_x, tbox_y = self.polar2xy(
radius * 0.88,
(1 - n) * pi / 2,
x, y)
self.draw_text(tbox_x, tbox_y,
label, fontsize=radius / 20)
# draw the satellite arcs
skyradius = radius * NauticalSpeedometer.HEADING_SAT_GAP
self.cr.set_line_width(radius / 200)
self.cr.set_source_rgba(0, 0, 0)
self.cr.arc(x, y, skyradius, 0, 2 * pi)
self.cr.set_source_rgba(1, 1, 1)
self.cr.fill()
self.cr.set_source_rgba(0, 0, 0)
self.cr.arc(x, y, skyradius * 2 / 3, 0, 2 * pi)
self.cr.move_to(x + skyradius / 3, y) # Avoid line connecting circles
self.cr.arc(x, y, skyradius / 3, 0, 2 * pi)
# draw the cross hair
self.cr.move_to(*self.polar2xy(skyradius, 1.5 * pi, x, y))
self.cr.line_to(*self.polar2xy(skyradius, 0.5 * pi, x, y))
self.cr.move_to(*self.polar2xy(skyradius, 0.0, x, y))
self.cr.line_to(*self.polar2xy(skyradius, pi, x, y))
self.cr.set_line_width(radius / 200)
self.cr.stroke()
long_inset = self.long_inset(radius)
mid_inset = self.mid_inset(radius)
short_inset = self.short_inset(radius)
# draw the large ticks
for i in range(12):
agllong = i * pi / 6
self.cr.move_to(*self.polar2xy(radius - long_inset, agllong, x, y))
self.cr.line_to(*self.polar2xy(radius, agllong, x, y))
self.cr.set_line_width(radius / 100)
self.cr.stroke()
self.cr.set_line_width(radius / 200)
# middle tick
aglmid = (i + 0.5) * pi / 6
self.cr.move_to(*self.polar2xy(radius - mid_inset, aglmid, x, y))
self.cr.line_to(*self.polar2xy(radius, aglmid, x, y))
# short tick
for n in range(1, 10):
aglshrt = agllong + n * pi / 60
self.cr.move_to(*self.polar2xy(radius - short_inset,
aglshrt, x, y))
self.cr.line_to(*self.polar2xy(radius, aglshrt, x, y))
self.cr.stroke()
def draw_heading(self, trig_height, heading, radius, x, y):
hypo = trig_height * 2 / sqrt(3)
h = pi / 2 - radians(heading) # to xyz
self.cr.set_line_width(2)
self.cr.set_source_rgba(0, 0.3, 0.2, 0.8)
# the triangle pointer
x0 = x + radius * cos(h)
y0 = y - radius * sin(h)
x1 = x0 + hypo * cos(7 * pi / 6 + h)
y1 = y0 - hypo * sin(7 * pi / 6 + h)
x2 = x0 + hypo * cos(5 * pi / 6 + h)
y2 = y0 - hypo * sin(5 * pi / 6 + h)
self.cr.move_to(x0, y0)
self.cr.line_to(x1, y1)
self.cr.line_to(x2, y2)
self.cr.line_to(x0, y0)
self.cr.close_path()
self.cr.fill()
self.cr.stroke()
# heading text
(tbox_x, tbox_y) = self.polar2xy(radius * 1.1, h, x, y)
self.draw_text(tbox_x, tbox_y, int(heading), fontsize=radius / 15)
# the ship shape, based on test and try
shiplen = radius * NauticalSpeedometer.HEADING_SAT_GAP / 4
xh, yh = self.polar2xy(shiplen * 2.3, h, x, y)
xa, ya = self.polar2xy(shiplen * 2.2, h + pi - 0.3, x, y)
xb, yb = self.polar2xy(shiplen * 2.2, h + pi + 0.3, x, y)
xc, yc = self.polar2xy(shiplen * 1.4, h - pi / 5, x, y)
xd, yd = self.polar2xy(shiplen * 1.4, h + pi / 5, x, y)
self.cr.set_source_rgba(0, 0.3, 0.2, 0.5)
self.cr.move_to(xa, ya)
self.cr.line_to(xb, yb)
self.cr.line_to(xc, yc)
self.cr.line_to(xh, yh)
self.cr.line_to(xd, yd)
self.cr.close_path()
self.cr.fill()
# self.cr.stroke()
def set_color(self, spec):
'''Set foreground color for drawing.'''
gdkcolor = Gdk.color_parse(spec)
r = gdkcolor.red / 65535.0
g = gdkcolor.green / 65535.0
b = gdkcolor.blue / 65535.0
self.cr.set_source_rgb(r, g, b)
def draw_sat(self, satsoup, radius, x, y):
"""Given a sat's elevation, azimuth, SNR, draw it on the skyview
Arg:
satsoup: a dictionary {'el': xx, 'az': xx, 'ss': xx}
"""
el, az = satsoup['el'], satsoup['az']
if el == 0 and az == 0:
return # Skip satellites with unknown position
h = pi / 2 - radians(az) # to xy
self.cr.set_line_width(2)
self.cr.set_source_rgb(0, 0, 0)
x0, y0 = self.polar2xy(radius * (90 - el) // 90, h, x, y)
self.cr.new_sub_path()
if gps.is_sbas(satsoup['PRN']):
self.cr.rectangle(x0 - NauticalSpeedometer.SAT_SIZE,
y0 - NauticalSpeedometer.SAT_SIZE,
NauticalSpeedometer.SAT_SIZE * 2,
NauticalSpeedometer.SAT_SIZE * 2)
else:
self.cr.arc(x0, y0, NauticalSpeedometer.SAT_SIZE, 0, pi * 2.0)
if satsoup['ss'] < 10:
self.set_color('Gray')
elif satsoup['ss'] < 30:
self.set_color('Red')
elif satsoup['ss'] < 35:
self.set_color('Yellow')
elif satsoup['ss'] < 40:
self.set_color('Green3')
else:
self.set_color('Green1')
if satsoup['used']:
self.cr.fill()
else:
self.cr.stroke()
self.draw_text(x0, y0, satsoup['PRN'], fontsize=15)
def draw_speed(self, radius, x, y):
self.cr.new_sub_path()
self.cr.set_line_width(20)
self.cr.set_source_rgba(0, 0, 0, 0.5)
speed = self.last_speed * self.conversions.get(self.speed_unit)
# cariol arc angle start at polar 0, going clockwise
alpha = 4 * pi / 3
beta = 2 * pi - alpha
theta = 5 * pi * speed / (self.maxspeed * 3)
self.cr.arc(x, y, radius + 40, beta, beta + theta)
self.cr.stroke()
# self.cr.close_path()
# self.cr.fill()
label = '%.2f %s' % (speed, self.speed_unit)
self.draw_text(x, y + radius + 40, label, fontsize=20)
def get_x_y(self):
rect = self.get_allocation()
x = (rect.x + rect.width / 2.0)
y = (rect.y + rect.height / 2.0) - 20
return x, y
def get_radius(self, width, height):
return min(width / 2.0, height / 2.0) - 70
class Main(object):
def __init__(self, host='localhost', port=gps.GPSD_PORT, device=None,
debug=0, speed_unit=None, maxspeed=0, nautical=False,
rotate=0.0, target=""):
self.host = host
self.port = port
self.device = device
self.debug = debug
self.speed_unit = speed_unit
self.maxspeed = maxspeed
self.nautical = nautical
self.rotate = rotate
self.window = Gtk.Window(Gtk.WindowType.TOPLEVEL)
if not self.window.get_display():
raise Exception("Can't open display")
if len(target):
target = " " + target
self.window.set_title('xgpsspeed' + target)
if self.nautical:
self.window.set_size_request(500, 550)
self.widget = NauticalSpeedometer(
speed_unit=self.speed_unit,
maxspeed=self.maxspeed,
rotate=self.rotate)
else:
self.widget = LandSpeedometer(speed_unit=self.speed_unit)
self.window.connect('delete-event', self.delete_event)
self.window.connect('destroy', self.destroy)
self.widget.show()
vbox = Gtk.VBox(False, 0)
self.window.add(vbox)
self.window.present()
self.uimanager = Gtk.UIManager()
self.accelgroup = self.uimanager.get_accel_group()
self.window.add_accel_group(self.accelgroup)
self.actiongroup = Gtk.ActionGroup('gpsspeed-ng')
self.actiongroup.add_actions(
[
('Quit', Gtk.STOCK_QUIT, '_Quit', None,
'Quit the Program', lambda unused: Gtk.main_quit()),
('File', None, '_File'),
('Units', None, '_Units')]
)
self.actiongroup.add_radio_actions(
[
('Imperial', None, '_Imperial', '<Control>i',
'Imperial Units', 0),
('Metric', None, '_Metric', '<Control>m',
'Metrical Units', 1),
('Nautical', None, '_Nautical', '<Control>n',
'Nautical Units', 2)
],
0, lambda a, unused: setattr(
self.widget, 'speed_unit',
['mph', 'kmh', 'knots'][a.get_current_value()])
)
self.uimanager.insert_action_group(self.actiongroup, 0)
self.uimanager.add_ui_from_string('''
<ui>
<menubar name='MenuBar'>
<menu action='File'>
<menuitem action='Quit'/>
</menu>
<menu action='Units'>
<menuitem action='Imperial'/>
<menuitem action='Metric'/>
<menuitem action='Nautical'/>
</menu>
</menubar>
</ui>
''')
self.active_unit_map = {
'mph': '/MenuBar/Units/Imperial',
'kmh': '/MenuBar/Units/Metric',
'knots': '/MenuBar/Units/Nautical'
}
menubar = self.uimanager.get_widget('/MenuBar')
self.uimanager.get_widget(
self.active_unit_map.get(self.speed_unit)
).set_active(True)
vbox.pack_start(menubar, False, False, 0)
vbox.add(self.widget)
self.window.show_all()
def watch(self, daemon, device):
self.daemon = daemon
self.device = device
GObject.io_add_watch(daemon.sock, GObject.IO_IN, self.handle_response)
GObject.io_add_watch(daemon.sock, GObject.IO_ERR, self.handle_hangup)
GObject.io_add_watch(daemon.sock, GObject.IO_HUP, self.handle_hangup)
return True
def handle_response(self, source, condition):
if self.daemon.read() == -1:
self.handle_hangup(source, condition)
if self.daemon.data['class'] == 'TPV':
self.update_speed(self.daemon.data)
if self.nautical and self.daemon.data['class'] == 'SKY':
self.update_skyview(self.daemon.data)
return True
def handle_hangup(self, _dummy, _unused):
w = Gtk.MessageDialog(
parent=self.window,
type=Gtk.MessageType.ERROR,
flags=Gtk.DialogFlags.DESTROY_WITH_PARENT,
buttons=Gtk.ButtonsType.OK
)
w.connect("destroy", lambda unused: Gtk.main_quit())
w.set_title('gpsd error')
w.set_markup("gpsd has stopped sending data.")
w.run()
Gtk.main_quit()
return True
def update_speed(self, data):
if hasattr(data, 'speed'):
self.widget.last_speed = data.speed
self.widget.queue_draw()
if self.nautical and hasattr(data, 'track'):
self.widget.last_heading = data.track
self.widget.queue_draw()
# Used for NauticalSpeedometer only
def update_skyview(self, data):
"Update the satellite list and skyview."
if hasattr(data, 'satellites'):
self.widget.satellites = data.satellites
self.widget.queue_draw()
def delete_event(self, _widget, _event, _data=None):
# Someday, handle all cleanup operations here
return False
def destroy(self, _unused, _empty=None):
Gtk.main_quit()
def run(self):
try:
daemon = gps.gps(
host=self.host,
port=self.port,
mode=gps.WATCH_ENABLE | gps.WATCH_JSON | gps.WATCH_SCALED,
verbose=self.debug
)
self.watch(daemon, self.device)
Gtk.main()
except SocketError:
w = Gtk.MessageDialog(
parent=self.window,
type=Gtk.MessageType.ERROR,
flags=Gtk.DialogFlags.DESTROY_WITH_PARENT,
buttons=Gtk.ButtonsType.OK
)
w.set_title('socket error')
w.set_markup(
"could not connect to gpsd socket. make sure gpsd is running."
)
w.run()
w.destroy()
except KeyboardInterrupt:
self.window.emit('delete_event', Gdk.Event(Gdk.NOTHING))
if __name__ == '__main__':
import sys
from os.path import basename
from optparse import OptionParser
prog = basename(sys.argv[0])
usage = ('%s [-V|--version] [-h|--help] [--debug] [--host] ' +
'[--port] [--device] [--speedunits {[mph] [kmh] [knots]}] ' +
'[host [:port [:device]]]') % (prog)
epilog = 'BSD terms apply: see the file COPYING in the distribution root' \
' for details.'
parser = OptionParser(usage=usage, epilog=epilog)
parser.add_option(
'--debug',
dest='debug',
default=0,
action='store',
type='int',
help='Set level of debug. Must be integer. [Default 0]'
)
parser.add_option(
'--device',
dest='device',
default=None,
help='The device to connect. [Default None]'
)
parser.add_option(
'--host',
dest='host',
default=None,
help='The host to connect. [Default localhost]'
)
parser.add_option(
'--landspeed',
dest='nautical',
default=True,
action='store_false',
help='Enable dashboard-style speedometer.'
)
parser.add_option(
'--maxspeed',
dest='maxspeed',
default='50',
help='Max speed of the speedmeter [Default 50]'
)
parser.add_option(
'--nautical',
dest='nautical',
default=True,
action='store_true',
help='Enable nautical-style speed and track display.'
)
parser.add_option(
'--port',
dest='port',
default=None,
help='The port to connect. [Default %s]' % gps.GPSD_PORT
)
parser.add_option(
'--rotate',
dest='rotate',
default=0,
action='store',
type='float',
help='Rotation of skyview ("up" direction) in degrees. [Default 0]'
)
parser.add_option(
'--speedunits',
dest='speedunits',
default='mph',
help='The unit of speed. Possible units are: mph, kmh, knots. '
'[Default mph]'
)
parser.add_option(
'-V', '--version',
action='store_true',
default=False,
help='Output version to stderr, then exit'
)
(options, args) = parser.parse_args()
if options.version:
sys.stderr.write("xgpspeed: Version %s\n" % gps_version)
sys.exit(0)
if args:
arg = args[0].split(':')
len_arg = len(arg)
if len_arg == 1:
(options.host,) = arg
elif len_arg == 2:
(options.host, options.port) = arg
elif len_arg == 3:
(options.host, options.port, options.device) = arg
else:
parser.print_help()
sys.exit(0)
target = ':'.join(args[0:])
elif options.host or options.port or options.device:
ltarget = [options.host or 'localhost']
if options.port or options.device:
ltarget += [options.port or '']
if options.device:
ltarget += [options.device]
target = ':'.join(ltarget)
else:
target = ""
Main(
host=options.host or 'localhost',
port=options.port or gps.GPSD_PORT,
device=options.device,
speed_unit=options.speedunits,
maxspeed=options.maxspeed,
nautical=options.nautical,
debug=options.debug,
rotate=options.rotate,
target=target,
).run()
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