from types import SimpleNamespace
from .protomodule import ProtoClass
+from .common import (
+ CoordReport,
+ HintReport,
+ StatusReport,
+ Report,
+)
__all__ = (
"Stream",
"proto_handled",
"parse_message",
"probe_buffer",
- "proto_name",
"DecodeError",
"Respond",
- "LK",
)
PROTO_PREFIX = "BS:"
### Parser/Constructor ###
+class classproperty:
+ def __init__(self, f: Callable[[Any], str]) -> None:
+ self.f = f
+
+ def __get__(self, obj: Any, owner: Any) -> str:
+ return self.f(owner)
+
+
class DecodeError(Exception):
def __init__(self, e: Exception, **kwargs: Any) -> None:
super().__init__(e)
# Overridden in subclasses, otherwise command verb only
return ""
- @property
- def PROTO(self) -> str:
+ @classproperty
+ def PROTO(cls: "BeeSurePkt") -> str:
+ """Name of the class without possible .In / .Out suffix"""
+ proto: str
try:
- proto, _ = self.__class__.__name__.split(".")
+ proto, _ = cls.__name__.split(".")
except ValueError:
- proto = self.__class__.__name__
+ proto = cls.__name__
return proto
+ @classmethod
+ def proto_name(cls) -> str:
+ """Name of the command as used externally"""
+ return PROTO_PREFIX + cls.PROTO[:16]
+
@property
def packed(self) -> bytes:
data = self.encode()
(self, "pedometer", int),
(self, "tubmling_times", int),
(self, "device_status", lambda x: int(x, 16)),
- (self, "base_stations_number", int),
+ (self, "gsm_cells_number", int),
(self, "connect_base_station_number", int),
(self, "mcc", int),
(self, "mnc", int),
setattr(obj, attr, func(val)) # type: ignore
rest_args = args[20:]
# (area_id, cell_id, strength)*
- self.base_stations = [
- tuple(int(el) for el in rest_args[i * 3 : 3 + i * 3])
- for i in range(self.base_stations_number)
+ self.gsm_cells: List[Tuple[int, int, int]] = [
+ tuple(int(el) for el in rest_args[i * 3 : 3 + i * 3]) # type: ignore
+ for i in range(self.gsm_cells_number)
]
- rest_args = rest_args[3 * self.base_stations_number :]
+ rest_args = rest_args[3 * self.gsm_cells_number :]
self.wifi_aps_number = int(rest_args[0])
# (SSID, MAC, strength)*
self.wifi_aps = [
self.latitude = p.lat * p.nors
self.longitude = p.lon * p.eorw
+ def rectified(self) -> Report:
+ if self.gps_valid:
+ return CoordReport(
+ devtime=str(self.devtime),
+ battery_percentage=self.battery_percentage,
+ accuracy=self.positioning_accuracy,
+ altitude=self.altitude,
+ speed=self.speed,
+ direction=self.direction,
+ latitude=self.latitude,
+ longitude=self.longitude,
+ )
+ else:
+ return HintReport(
+ devtime=str(self.devtime),
+ battery_percentage=self.battery_percentage,
+ mcc=self.mcc,
+ mnc=self.mnc,
+ gsm_cells=self.gsm_cells,
+ wifi_aps=self.wifi_aps,
+ )
+
class AL(_LOC_DATA):
RESPOND = Respond.INL
return proto.startswith(PROTO_PREFIX)
-def proto_name(obj: Union[Type[BeeSurePkt], BeeSurePkt]) -> str:
- return PROTO_PREFIX + (
- obj.__class__.__name__ if isinstance(obj, BeeSurePkt) else obj.__name__
- )
-
-
def proto_of_message(packet: bytes) -> str:
return PROTO_PREFIX + packet[20:-1].split(b",")[0].decode()
def exposed_protos() -> List[Tuple[str, bool]]:
return [
- (proto_name(UD), True),
- (proto_name(UD2), False),
+ (cls.proto_name(), False)
+ for cls in CLASSES.values()
+ if hasattr(cls, "rectified")
]