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synced 2024-12-28 08:59:30 -05:00
Fixed typos
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@ -3938,7 +3938,7 @@ class SidebandApp(MDApp):
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if hasattr(self, "map") and self.map:
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mz = 16
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lat = location["latitude"]
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lon = location["longtitude"]
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lon = location["longitude"]
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if mz > self.map.map_source.max_zoom: mz = self.map.map_source.max_zoom
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if mz < self.map.map_source.min_zoom: mz = self.map.map_source.min_zoom
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self.map.zoom = mz
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@ -4033,7 +4033,7 @@ class SidebandApp(MDApp):
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l = telemetry["location"]
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a_icon = appearance[0]
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a_fg = appearance[1]; a_bg = appearance[2]
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marker = CustomMapMarker(lat=l["latitude"], lon=l["longtitude"], icon_bg=a_bg)
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marker = CustomMapMarker(lat=l["latitude"], lon=l["longitude"], icon_bg=a_bg)
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marker.app = self
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marker.source_dest = source
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marker.location_time = l["last_update"]
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@ -4094,7 +4094,7 @@ class SidebandApp(MDApp):
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pass
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try:
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if own_telemetry != None and "location" in own_telemetry and own_telemetry["location"] != None and own_telemetry["location"]["latitude"] != None and own_telemetry["location"]["longtitude"] != None:
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if own_telemetry != None and "location" in own_telemetry and own_telemetry["location"] != None and own_telemetry["location"]["latitude"] != None and own_telemetry["location"]["longitude"] != None:
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retain_own = True
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if not own_address in self.map_markers:
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@ -4110,7 +4110,7 @@ class SidebandApp(MDApp):
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if o["last_update"] > marker.location_time or (hasattr(self, "own_appearance_changed") and self.own_appearance_changed):
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marker.location_time = o["last_update"]
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marker.lat = o["latitude"]
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marker.lon = o["longtitude"]
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marker.lon = o["longitude"]
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marker.icon.icon = own_appearance[0]
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marker.icon.icon_color = own_appearance[1]
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marker.icon.md_bg_color = own_appearance[2]
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@ -4158,7 +4158,7 @@ class SidebandApp(MDApp):
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t = Telemeter.from_packed(telemetry_data)
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if t != None:
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telemetry = t.read_all()
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if "location" in telemetry and telemetry["location"] != None and telemetry["location"]["latitude"] != None and telemetry["location"]["longtitude"] != None:
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if "location" in telemetry and telemetry["location"] != None and telemetry["location"]["latitude"] != None and telemetry["location"]["longitude"] != None:
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latest_viewable = telemetry
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break
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@ -4174,7 +4174,7 @@ class SidebandApp(MDApp):
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marker = self.map_markers[telemetry_source]
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marker.location_time = latest_viewable["time"]["utc"]
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marker.lat = l["latitude"]
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marker.lon = l["longtitude"]
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marker.lon = l["longitude"]
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appearance = self.sideband.peer_appearance(telemetry_source)
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marker.icon.icon = appearance[0]
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marker.icon.icon_color = appearance[1]
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@ -1105,8 +1105,8 @@ class SidebandCore():
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lt = self.latest_telemetry
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if "location" in lt and lt["location"] != None:
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l = lt["location"]
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if "latitude" in l and "longtitude" in l:
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if l["latitude"] != None and l["longtitude"] != None:
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if "latitude" in l and "longitude" in l:
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if l["latitude"] != None and l["longitude"] != None:
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return l
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return None
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@ -1120,8 +1120,8 @@ class SidebandCore():
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t = Telemeter.from_packed(pt[1]).read_all()
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if "location" in t and t["location"] != None:
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l = t["location"]
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if "latitude" in l and "longtitude" in l:
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if l["latitude"] != None and l["longtitude"] != None:
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if "latitude" in l and "longitude" in l:
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if l["latitude"] != None and l["longitude"] != None:
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return l
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except:
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pass
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@ -1636,12 +1636,12 @@ class SidebandCore():
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remote_telemeter.sensors["received"].via = source_dest
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rl = remote_telemeter.read("location")
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if rl and "latitude" in rl and "longtitude" in rl and "altitude" in rl:
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if rl and "latitude" in rl and "longitude" in rl and "altitude" in rl:
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if self.latest_telemetry != None and "location" in self.latest_telemetry:
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ol = self.latest_telemetry["location"]
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if "latitude" in ol and "longtitude" in ol and "altitude" in ol:
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olat = ol["latitude"]; olon = ol["longtitude"]; oalt = ol["altitude"]
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rlat = rl["latitude"]; rlon = rl["longtitude"]; ralt = rl["altitude"]
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if "latitude" in ol and "longitude" in ol and "altitude" in ol:
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olat = ol["latitude"]; olon = ol["longitude"]; oalt = ol["altitude"]
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rlat = rl["latitude"]; rlon = rl["longitude"]; ralt = rl["altitude"]
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if olat != None and olon != None and oalt != None:
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if rlat != None and rlon != None and ralt != None:
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remote_telemeter.sensors["received"].set_distance(
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@ -2319,7 +2319,7 @@ class SidebandCore():
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if self.config["telemetry_s_fixed_location"]:
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self.telemeter.synthesize("location")
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self.telemeter.sensors["location"].latitude = self.config["telemetry_s_fixed_latlon"][0]
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self.telemeter.sensors["location"].longtitude = self.config["telemetry_s_fixed_latlon"][1]
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self.telemeter.sensors["location"].longitude = self.config["telemetry_s_fixed_latlon"][1]
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self.telemeter.sensors["location"].altitude = self.config["telemetry_s_fixed_altitude"]
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self.telemeter.sensors["location"].stale_time = 30
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@ -39,13 +39,13 @@ def ellipsoid_radius_at(latitude):
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)
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return r
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def euclidian_point(latitude, longtitude, altitude=0, ellipsoid=True):
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# Convert latitude and longtitude to radians
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def euclidian_point(latitude, longitude, altitude=0, ellipsoid=True):
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# Convert latitude and longitude to radians
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# and get ellipsoid or sphere radius
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lat = radians(latitude); lon = radians(longtitude)
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lat = radians(latitude); lon = radians(longitude)
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r = ellipsoid_radius_at(latitude) if ellipsoid else mean_earth_radius
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# Calculate euclidian coordinates from longtitude
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# Calculate euclidian coordinates from longitude
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# and geocentric latitude.
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gclat = radians(geocentric_latitude(latitude)) if ellipsoid else lat
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x = cos(lon)*cos(gclat)*r
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@ -589,7 +589,7 @@ class Location(Sensor):
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self._accuracy_target = Location.ACCURACY_TARGET
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self.latitude = None
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self.longtitude = None
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self.longitude = None
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self.altitude = None
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self.speed = None
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self.bearing = None
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@ -632,7 +632,7 @@ class Location(Sensor):
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self.gps.stop()
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self.latitude = None
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self.longtitude = None
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self.longitude = None
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self.altitude = None
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self.speed = None
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self.bearing = None
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@ -646,7 +646,7 @@ class Location(Sensor):
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def update_data(self):
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try:
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if self.synthesized:
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if self.latitude != None and self.longtitude != None:
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if self.latitude != None and self.longitude != None:
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now = time.time()
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if self._last_update == None:
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@ -660,7 +660,7 @@ class Location(Sensor):
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if self.bearing == None: self.bearing = 0.0
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self.data = {
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"latitude": round(self.latitude, 6),
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"longtitude": round(self.longtitude, 6),
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"longitude": round(self.longitude, 6),
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"altitude": round(self.altitude, 2),
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"speed": round(self.speed, 2),
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"bearing": round(self.bearing, 2),
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@ -672,7 +672,7 @@ class Location(Sensor):
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if "lat" in self._raw:
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self.latitude = self._raw["lat"]
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if "lon" in self._raw:
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self.longtitude = self._raw["lon"]
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self.longitude = self._raw["lon"]
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if "altitude" in self._raw:
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self.altitude = self._raw["altitude"]
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if "speed" in self._raw:
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@ -689,7 +689,7 @@ class Location(Sensor):
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if self.accuracy != None and self.accuracy <= self._accuracy_target:
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self.data = {
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"latitude": round(self.latitude, 6),
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"longtitude": round(self.longtitude, 6),
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"longitude": round(self.longitude, 6),
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"altitude": round(self.altitude, 2),
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"speed": round(self.speed, 2),
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"bearing": round(self.bearing, 2),
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@ -708,7 +708,7 @@ class Location(Sensor):
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try:
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return [
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struct.pack("!i", int(round(d["latitude"], 6)*1e6)),
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struct.pack("!i", int(round(d["longtitude"], 6)*1e6)),
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struct.pack("!i", int(round(d["longitude"], 6)*1e6)),
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struct.pack("!I", int(round(d["altitude"], 2)*1e2)),
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struct.pack("!I", int(round(d["speed"], 2)*1e2)),
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struct.pack("!I", int(round(d["bearing"], 2)*1e2)),
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@ -726,7 +726,7 @@ class Location(Sensor):
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else:
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return {
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"latitude": struct.unpack("!i", packed[0])[0]/1e6,
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"longtitude": struct.unpack("!i", packed[1])[0]/1e6,
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"longitude": struct.unpack("!i", packed[1])[0]/1e6,
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"altitude": struct.unpack("!I", packed[2])[0]/1e2,
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"speed": struct.unpack("!I", packed[3])[0]/1e2,
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"bearing": struct.unpack("!I", packed[4])[0]/1e2,
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@ -742,8 +742,8 @@ class Location(Sensor):
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obj_ath = None
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obj_rh = None
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if self.data["altitude"] != None and self.data["latitude"] != None and self.data["longtitude"] != None:
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coords = (self.data["latitude"], self.data["longtitude"], self.data["altitude"])
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if self.data["altitude"] != None and self.data["latitude"] != None and self.data["longitude"] != None:
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coords = (self.data["latitude"], self.data["longitude"], self.data["altitude"])
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obj_ath = angle_to_horizon(coords)
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obj_rh = radio_horizon(self.data["altitude"])
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@ -752,7 +752,7 @@ class Location(Sensor):
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"name": "Location",
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"values": {
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"latitude": self.data["latitude"],
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"longtitude": self.data["longtitude"],
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"longitude": self.data["longitude"],
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"altitude": self.data["altitude"],
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"speed": self.data["speed"],
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"heading": self.data["bearing"],
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@ -764,14 +764,14 @@ class Location(Sensor):
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}
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if relative_to != None and "location" in relative_to.sensors:
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slat = self.data["latitude"]; slon = self.data["longtitude"]
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slat = self.data["latitude"]; slon = self.data["longitude"]
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salt = self.data["altitude"];
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if salt == None: salt = 0
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if slat != None and slon != None:
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s = relative_to.sensors["location"]
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d = s.data
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if "latitude" in d and "longtitude" in d and "altitude" in d:
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lat = d["latitude"]; lon = d["longtitude"]; alt = d["altitude"]
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if "latitude" in d and "longitude" in d and "altitude" in d:
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lat = d["latitude"]; lon = d["longitude"]; alt = d["altitude"]
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if lat != None and lon != None:
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if alt == None: alt = 0
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cs = (slat, slon, salt); cr = (lat, lon, alt)
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@ -405,7 +405,7 @@ class RVDetails(MDRecycleView):
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formatted_values = q_str+rssi_str+snr_str
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elif name == "Location":
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lat = s["values"]["latitude"]
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lon = s["values"]["longtitude"]
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lon = s["values"]["longitude"]
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alt = s["values"]["altitude"]
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speed = s["values"]["speed"]
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heading = s["values"]["heading"]
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@ -1266,7 +1266,7 @@ MDScreen:
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MDTextField:
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id: telemetry_s_fixed_latlon
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size_hint: [0.618, None]
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hint_text: "Latitude, longtitude"
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hint_text: "Latitude, longitude"
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text: ""
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font_size: dp(24)
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