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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)
#
# BSD terms apply: see the file COPYING in the distribution root for details.
import pygtk
pygtk.require('2.0')
import gtk
import cairo
import gobject
import gps
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
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 not self.speed_unit 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('expose_event', self.expose_event)
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 expose_event(self, unused, event, empty=None):
self.cr = self.window.cairo_create()
self.cr.rectangle(
event.area.x,
event.area.y,
event.area.width,
event.area.height
)
self.cr.clip()
x, y = self.get_x_y()
width, height = self.window.get_size()
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:
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 + (self.cr.get_line_width() / 2)) * cos((i
+ z) * pi / 6.0),
y + (radius + (self.cr.get_line_width() / 2)) * 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 + (self.cr.get_line_width() / 2)) * cos((i
- z) * pi / 6.0),
y + (radius + (self.cr.get_line_width() / 2)) * 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]:
#TODO test this in real conditions! ;)
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
GPS_PRNMAX = 32 # Above this number are SBAS satellites
SAT_SIZE = 10 # radius of the satellite circle in skyview
def __init__(self, speed_unit=None, maxspeed=100):
Speedometer.__init__(self, speed_unit)
self.connect('expose_event', self.expose_event)
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)
@staticmethod
def polar2xy(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)'''
return (polex + cos(angle) * radius, poley - sin(angle) * radius)
def expose_event(self, unused, event, empty=None):
self.cr = self.window.cairo_create()
self.cr.rectangle(
event.area.x,
event.area.y,
event.area.width,
event.area.height
)
self.cr.clip()
x, y = self.get_x_y()
width, height = self.window.get_size()
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 xrange(11):
#draw the large ticks
alpha = (8 - i) * pi / 6
self.cr.move_to(*NauticalSpeedometer.polar2xy(rspeed, alpha, x, y))
self.cr.set_line_width(radius / 100)
self.cr.line_to(*NauticalSpeedometer.polar2xy(rspeed - s_long, alpha, x, y))
self.cr.stroke()
self.cr.set_line_width(radius / 200)
xf, yf = NauticalSpeedometer.polar2xy(rspeed + 10, alpha, x, y)
stxt = (self.maxspeed / 10) * i
self.draw_text(xf, yf, stxt, fontsize=radius / 15)
for i in xrange(1, 11):
# middle tick
alpha = (8 - i) * pi / 6
beta = (17 - 2 * i) * pi / 12
self.cr.move_to(*NauticalSpeedometer.polar2xy(rspeed, beta, x, y))
self.cr.line_to(*NauticalSpeedometer.polar2xy(rspeed - s_middle, beta, x, y))
# short tick
for n in xrange(10):
gamma = alpha + n * pi / 60
self.cr.move_to(*NauticalSpeedometer.polar2xy(rspeed, gamma, x, y))
self.cr.line_to(*NauticalSpeedometer.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 xrange(0, 4):
label = str(n * 90)
#self.cr.set_source_rgba(0, 1, 0)
#radius * (1 + NauticalSpeedometer.HEADING_SAT_GAP),
tbox_x, tbox_y = NauticalSpeedometer.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.arc(x, y, skyradius / 3, 0, 2 * pi)
# draw the cross hair
self.cr.move_to(x - skyradius, y)
self.cr.line_to(x + skyradius, y)
self.cr.move_to(x, y - skyradius)
self.cr.line_to(x, y + skyradius)
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 xrange(12):
agllong = i * pi / 6
self.cr.move_to(*NauticalSpeedometer.polar2xy(radius - long_inset, agllong, x, y))
self.cr.line_to(*NauticalSpeedometer.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(*NauticalSpeedometer.polar2xy(radius - mid_inset, aglmid, x, y))
self.cr.line_to(*NauticalSpeedometer.polar2xy(radius, aglmid, x, y))
# short tick
for n in xrange(1, 10):
aglshrt = agllong + n * pi / 60
self.cr.move_to(*NauticalSpeedometer.polar2xy(radius - short_inset, aglshrt, x, y))
self.cr.line_to(*NauticalSpeedometer.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) = NauticalSpeedometer.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 = NauticalSpeedometer.polar2xy(shiplen * 2.3, h, x, y)
xa, ya = NauticalSpeedometer.polar2xy(shiplen * 2.2, h + pi - 0.3, x, y)
xb, yb = NauticalSpeedometer.polar2xy(shiplen * 2.2, h + pi + 0.3, x, y)
xc, yc = NauticalSpeedometer.polar2xy(shiplen * 1.4, h - pi / 5, x, y)
xd, yd = NauticalSpeedometer.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 = gtk.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, azimath, SNR, draw it on the skyview
Arg:
satsoup: a dictionary {'el': xx, 'az': xx, 'ss': xx}
"""
h = pi / 2 - radians(satsoup['az']) # to xy
self.cr.set_line_width(2)
self.cr.set_source_rgb(0, 0, 0)
x0, y0 = NauticalSpeedometer.polar2xy(radius * (90 - satsoup['el']) / 90, h, x, y)
self.cr.new_sub_path()
if satsoup['PRN'] > NauticalSpeedometer.GPS_PRNMAX:
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='2947', device=None, debug=0,
speed_unit=None, maxspeed=0, nautical=False):
self.host = host
self.port = port
self.device = device
self.debug = debug
self.speed_unit = speed_unit
self.maxspeed = maxspeed
self.nautical = nautical
self.window = gtk.Window(gtk.WINDOW_TOPLEVEL)
if not self.window.get_display():
raise Exception("Can't open display")
self.window.set_title('xgpsspeed')
if self.nautical:
self.window.set_size_request(500, 550)
self.widget = NauticalSpeedometer(speed_unit=self.speed_unit,
maxspeed=self.maxspeed)
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(
type=gtk.MESSAGE_ERROR,
flags=gtk.DIALOG_DESTROY_WITH_PARENT,
buttons=gtk.BUTTONS_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):
#TODO 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(
type=gtk.MESSAGE_ERROR,
flags=gtk.DIALOG_DESTROY_WITH_PARENT,
buttons=gtk.BUTTONS_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', gtk.gdk.Event(gtk.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(
'--host',
dest='host',
default='localhost',
help='The host to connect. [Default localhost]'
)
parser.add_option(
'--port',
dest='port',
default='2947',
help='The port to connect. [Default 2947]'
)
parser.add_option(
'--device',
dest='device',
default=None,
help='The device to connet. [Default None]'
)
parser.add_option(
'--speedunits',
dest='speedunits',
default='mph',
help='The unit of speed. Possible units are: mph, kmh, knots. [Default mph]'
)
parser.add_option(
'--maxspeed',
dest='maxspeed',
default='50',
help='max speed of the speedmeter [Default 50]'
)
parser.add_option(
'--nautical',
dest='nautical',
default=False,
action='store_true',
help='Enable nautical-style speed and track display.'
)
parser.add_option(
'--debug',
dest='debug',
default=0,
action='store',
type='int',
help='Set level of debug. Must be integer. [Default 0]'
)
(options, args) = parser.parse_args()
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)
Main(
host=options.host,
port=options.port,
device=options.device,
speed_unit=options.speedunits,
maxspeed=options.maxspeed,
nautical=options.nautical,
debug=options.debug
).run()
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