How to use the canmatrix.ArbitrationId.from_pgn function in canmatrix
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ebroecker / canmatrix / src / canmatrix / j1939_decoder.py View on Github 
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 255:
# Connection Abort
self.abort_reason = can_data[1]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding Connection Abbort not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEEFF).pgn:
#Address Claimed
#arbitration_id.j1939_source
#name in can_data[0:8]
return ("ERROR - address claim detected not yet implemented")
pass
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEBFF).pgn:
# transfer data
self._data = self._data + can_data[1:min(8, self.bytes_left + 1)]
self.bytes_left = max(self.bytes_left - 7, 0)
if self.count_succesive_frames == 0:
#print(self._data)
frame = matrix.frame_by_pgn(self.transfered_pgn)
if frame is not None:
signals = frame.decode(self._data)
return ("BAM last data", signals)
return ("BAM last data", {})
else:
self.count_succesive_frames -= 1
return ("BAM data ", {})
return ("",{})def decode(self, arbitration_id, can_data, matrix = None):
if matrix is not None:
frame = matrix.frame_by_pgn(arbitration_id.pgn)
else:
frame = None
if frame is not None:
return ("regular " + frame.name, frame.decode(can_data))
elif self.j1939_db.frame_by_pgn(arbitration_id.pgn) is not None:
signals = self.j1939_db.decode(arbitration_id,can_data)
frame_name = self.j1939_db.frame_by_pgn(arbitration_id.pgn).name
return ("J1939 known: " + frame_name, signals)
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 32:
# BAM detected
self.length = (int(can_data[2]) << 8) + int(can_data[1])
self.count_succesive_frames = int(can_data[3])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
self.bytes_left = self.length
self._data = bytearray()
return ("BAM ", {})
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 16:
# RTS detected
self.length = (int(can_data[2]) << 8) + int(can_data[1])
self.count_of_packets = int(can_data[3])
self.total_count_of_packet_sent = int(can_data[4])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding RTS not yet implemented")elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 16:
# RTS detected
self.length = (int(can_data[2]) << 8) + int(can_data[1])
self.count_of_packets = int(can_data[3])
self.total_count_of_packet_sent = int(can_data[4])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding RTS not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 17:
# CTS detected
self.max_packets_at_once = can_data[1]
self.sequence_number_to_start = can_data[2]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding CTS not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 19:
# ACK detected
self.message_size = (int(can_data[2]) << 8) + int(can_data[1])
self.count_of_packets = int(can_data[3])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding ACK not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 255:
# Connection Abort
self.abort_reason = can_data[1]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding Connection Abbort not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEEFF).pgn:
#Address Claimed
#arbitration_id.j1939_sourceelif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 17:
# CTS detected
self.max_packets_at_once = can_data[1]
self.sequence_number_to_start = can_data[2]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding CTS not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 19:
# ACK detected
self.message_size = (int(can_data[2]) << 8) + int(can_data[1])
self.count_of_packets = int(can_data[3])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding ACK not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 255:
# Connection Abort
self.abort_reason = can_data[1]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding Connection Abbort not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEEFF).pgn:
#Address Claimed
#arbitration_id.j1939_source
#name in can_data[0:8]
return ("ERROR - address claim detected not yet implemented")
pass
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEBFF).pgn:
# transfer dataelif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 19:
# ACK detected
self.message_size = (int(can_data[2]) << 8) + int(can_data[1])
self.count_of_packets = int(can_data[3])
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding ACK not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xECFF).pgn and can_data[0] == 255:
# Connection Abort
self.abort_reason = can_data[1]
self.transfered_pgn = (int(can_data[7]) << 16) + (int(can_data[6]) << 8) + int(can_data[5])
return ("ERROR - decoding Connection Abbort not yet implemented")
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEEFF).pgn:
#Address Claimed
#arbitration_id.j1939_source
#name in can_data[0:8]
return ("ERROR - address claim detected not yet implemented")
pass
elif arbitration_id.pgn == canmatrix.ArbitrationId.from_pgn(0xEBFF).pgn:
# transfer data
self._data = self._data + can_data[1:min(8, self.bytes_left + 1)]
self.bytes_left = max(self.bytes_left - 7, 0)
if self.count_succesive_frames == 0:
#print(self._data)
frame = matrix.frame_by_pgn(self.transfered_pgn)
if frame is not None:
Popular canmatrix functions
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