class TimeStatsData(Packet): STRUCTURE = binio.new([ (1, binio.types.t_uint, "ParticipantsChangedTimestamp") ]) PARTICIPANTS_STATS_INFO = binio.new([ (1, binio.types.t_float, "sFastestLapTime"), (1, binio.types.t_float32, "sLastLapTime"), (1, binio.types.t_float32, "sLastSectorTime"), (1, binio.types.t_float32, "sFastestSector1Time"), (1, binio.types.t_float32, "sFastestSector2Time"), (1, binio.types.t_float32, "sFastestSector3Time") ]) def __init__(self, buildVersion, sequenceNumber, packetType, buf): super(TimeStatsData, self).__init__(buildVersion, sequenceNumber, packetType, buf) self._data["participants_time_stats"] = [] for _ in range(0, 32): p = TimeStatsData.PARTICIPANTS_STATS_INFO.read_dict(buf) self._data["participants_time_stats"].append(p) def __getitem__(self, key): return self._data[key]
class ParticipantsData(Packet): STRUCTURE = binio.new([ (1, binio.types.t_uint, "ParticipantsChangedTimestamp") ]) NAME_STRUCTURE = binio.new([(64, binio.types.t_char, "name")]) def __init__(self, buildVersion, sequenceNumber, packetType, buf): super(ParticipantsData, self).__init__(buildVersion, sequenceNumber, packetType, buf) self._data["participants"] = [] for _ in range(0, 16): p = ParticipantsData.NAME_STRUCTURE.read_dict(buf) p["name"] = self._convertString(p["name"]) self._data["participants"].append(p) def __getitem__(self, key): return self._data[key]
class ParticipantInfoStringsAdditionalPacket(Packet):
STRUCTURE = binio.new([(1, binio.types.t_u8, "offset")])
NAME_STRUCTURE = binio.new([(64, binio.types.t_byte, "name")])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(ParticipantInfoStringsAdditionalPacket,
self).__init__(buildVersion, sequenceNumber, packetType, buf)
self._data["participants"] = []
for _ in range(0, 16):
p = ParticipantInfoStringsAdditionalPacket.NAME_STRUCTURE.read_dict(
buf)
p["name"] = self._convertString(p["name"])
self._data["participants"].append(p)
def __getitem__(self, key):
return self._data[key]
class TimingsData(Packet): STRUCTURE = binio.new([ (1, binio.types.t_u8, "NumParticipants"), (1, binio.types.t_uint, "ParticipantsChangedTimestamp"), (1, binio.types.t_float32, "sEventTimeRemaining"), (1, binio.types.t_float32, "sSplitTimeAhead"), (1, binio.types.t_float32, "sSplitTimeBehind"), (1, binio.types.t_float32, "sSplitTime") ]) PARTICIPANT_INFO_STRUCTURE = binio.new([ (1, binio.types.t_int16, "worldPositionX"), (1, binio.types.t_int16, "worldPositionY"), (1, binio.types.t_int16, "worldPositionZ"), (1, binio.types.t_int16, "orientationX"), (1, binio.types.t_int16, "orientationY"), (1, binio.types.t_int16, "orientationZ"), (1, binio.types.t_u16, "currentLapDistance"), (1, binio.types.t_u8, "racePosition"), (1, binio.types.t_u8, "sector"), (1, binio.types.t_u8, "HighestFlag"), (1, binio.types.t_u8, "PitModeSchedule"), (1, binio.types.t_u8, "CarIndex"), (1, binio.types.t_u8, "RaceState"), (1, binio.types.t_u8, "currentLap"), (1, binio.types.t_u8, "lapsCompleted"), (1, binio.types.t_float32, "CurrentSectorTime"), ]) def __init__(self, buildVersion, sequenceNumber, packetType, buf): super(TimingsData, self).__init__(buildVersion, sequenceNumber, packetType, buf) self._data["participant_timings"] = [] for _ in range(0, 32): p = TimingsData.PARTICIPANT_INFO_STRUCTURE.read_dict(buf) self._data["participant_timings"].append(p) def __getitem__(self, key): return self._data[key]
class ParticipantInfoStringsPacket(Packet):
STRUCTURE = binio.new([
(64, binio.types.t_byte, "carName"),
(64, binio.types.t_byte, "carClassName"),
(64, binio.types.t_byte, "trackLocation"),
(64, binio.types.t_byte, "trackVariation"),
])
NAME_STRUCTURE = binio.new([(64, binio.types.t_byte, "name")])
FASTEST_LAP_TIME_STRUCTURE = binio.new([(1, binio.types.t_float32,
"fastestLapTime")])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(ParticipantInfoStringsPacket,
self).__init__(buildVersion, sequenceNumber, packetType, buf)
self._data["carName"] = self._convertString(self._data["carName"])
self._data["carClassName"] = self._convertString(
self._data["carClassName"])
self._data["trackLocation"] = self._convertString(
self._data["trackLocation"])
self._data["trackVariation"] = self._convertString(
self._data["trackVariation"])
self._data["participants"] = []
for _ in range(0, 16):
p = ParticipantInfoStringsPacket.NAME_STRUCTURE.read_dict(buf)
p["name"] = self._convertString(p["name"])
self._data["participants"].append(p)
for _ in range(0, 16):
p = ParticipantInfoStringsPacket.FASTEST_LAP_TIME_STRUCTURE.read_dict(
buf)
self._data["participants"][_]["fastestLapTime"] = p[
"fastestLapTime"]
def __getitem__(self, key):
return self._data[key]
class VehicleClassNamesData(Packet):
VEHICLE_CLASS_INFO = binio.new([(1, binio.types.t_uint, "Index"),
(20, binio.types.t_char, "Name")])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(VehicleClassNamesData,
self).__init__(buildVersion, sequenceNumber, packetType, buf)
self._data["vehicle_classes"] = []
for _ in range(0, 60):
p = VehicleClassNamesData.VEHICLE_CLASS_INFO.read_dict(buf)
self._data["vehicle_classes"].append(p)
def __init__(self):
self.regionFile = binio.new("""
((1, t_byte, 'offset0'),
(1, t_byte, 'offset1'),
(1, t_byte, 'offset2'),
(1, t_byte, 'sector_count')) * 1024,
(4, t_int32, 'timestamp') * 1024,
(4, t_int32, 'length'),
(1, t_byte, 'compression_type'),
(length-1, t_byte, 'compressed_data')
""")
class ParticipantsVehicleNamesData(Packet):
VEHICLE_INFO = binio.new([(1, binio.types.t_u16, "Index"),
(1, binio.types.t_uint, "Class"),
(64, binio.types.t_char, "Name")])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(ParticipantsVehicleNamesData,
self).__init__(buildVersion, sequenceNumber, packetType, buf)
self._data["vehicles"] = []
for _ in range(0, 16):
p = ParticipantsVehicleNamesData.VEHICLE_INFO.read_dict(buf)
self._data["vehicles"].append(p)
class GameStateData(Packet): STRUCTURE = binio.new([ (1, binio.types.t_u16, "BuildVersionNumber"), (1, binio.types.t_char, "GameState"), (1, binio.types.t_int8, "ambientTemperature"), (1, binio.types.t_int8, "trackTemperature"), (1, binio.types.t_u8, "rainDensity"), (1, binio.types.t_u8, "snowDensity"), (1, binio.types.t_int8, "windSpeed"), (1, binio.types.t_int8, "windDirectionX"), (1, binio.types.t_int8, "windDirectionY"), ]) def __getitem__(self, key): return self._data[key]
class Packet(object):
HEADER = binio.new([
(1,binio.types.t_uint, 'mPacketNumber'),
(1,binio.types.t_uint, 'mCategoryPacketNumber'),
(1,binio.types.t_u8, 'mPartialPacketIndex'),
(1,binio.types.t_u8, 'mPartialPacketNumber'),
(1,binio.types.t_u8, 'mPacketType'),
(1, binio.types.t_u8, 'mPacketVersion'),
])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
self.buildVersion = buildVersion
self.sequenceNumber = sequenceNumber
self.packetType = packetType
self._data = {}
#packetType=1 breaks the code for some reason
if hasattr(self.__class__, "STRUCTURE"):
try:
self._data = self.__class__.STRUCTURE.read_dict(buf)
except UnicodeDecodeError:
print("Could not decode packet: " + str(self.sequenceNumber) + ": " + str(PACKET_TYPES[self.packetType]))
except binio.EndOfFileError:
print("Error occured in packet " + str(self.sequenceNumber) + ": " + str(PACKET_TYPES[self.packetType]))
def _convertString(self, stringAsBytes):
# Convert to utf-8 and strip junk from strings after the null character.
try:
# Python 2
convertedValue = unicode(stringAsBytes, encoding='utf-8', errors='ignore')
except NameError:
# Python 3
convertedValue = str(stringAsBytes, encoding='utf-8', errors='surrogateescape')
return convertedValue.rstrip('\x00')
@staticmethod
def readFrom(buf):
header = Packet.HEADER.read_dict(buf)
buildVersion = header["mPacketNumber"]
sequenceNumber = header["mCategoryPacketNumber"]
packetType = header["mPacketType"]
pClass = PACKET_TYPES.get(packetType, Packet)
return pClass(buildVersion, sequenceNumber, packetType, buf)
class Packet(object):
HEADER = binio.new(PACKET_HEADER)
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
self.buildVersion = buildVersion
self.sequenceNumber = sequenceNumber
self.packetType = packetType
self.data = {}
if hasattr(self.__class__, "STRUCTURE"):
self.data = self.__class__.STRUCTURE.read_dict(buf)
@staticmethod
def readFrom(buf):
header = Packet.HEADER.read_dict(buf)
buildVersion = header['buildVersion']
sequenceNumber = (header['seq_packet'] & 0xFC) >> 2
packetType = header['seq_packet'] & 0x3
pClass = PACKET_TYPES.get(packetType, Packet)
return pClass(buildVersion, sequenceNumber, packetType, buf)
class Packet(object):
HEADER = binio.new([
(1, binio.types.t_u16, "buildVersion"),
(1, binio.types.t_u8, "seq_packet"),
])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
self.buildVersion = buildVersion
self.sequenceNumber = sequenceNumber
self.packetType = packetType
if hasattr(self.__class__, "STRUCTURE"):
self._data = self.__class__.STRUCTURE.read_dict(buf)
else:
self._data = {}
def _convertString(self, stringAsBytes):
# Convert to utf-8 and strip junk from strings after the null character.
try:
# Python 2
convertedValue = unicode(stringAsBytes,
encoding='utf-8',
errors='ignore')
except NameError:
# Python 3
convertedValue = str(stringAsBytes,
encoding='utf-8',
errors='surrogateescape')
return convertedValue.rstrip('\x00')
@staticmethod
def readFrom(buf):
header = Packet.HEADER.read_dict(buf)
buildVersion = header["buildVersion"]
sequenceNumber = (header["seq_packet"] & 0xFC) >> 2
packetType = header["seq_packet"] & 0x3
pClass = PACKET_TYPES.get(packetType, Packet)
return pClass(buildVersion, sequenceNumber, packetType, buf)
class RaceData(Packet): STRUCTURE = binio.new([ (1,binio.types.t_float32,"sWorldFastestLapTime"), (1,binio.types.t_float32,"sPersonalFastestLapTime"), (1,binio.types.t_float32,"sPersonalFastestSector1Time"), (1,binio.types.t_float32,"sPersonalFastestSector2Time"), (1,binio.types.t_float32,"sPersonalFastestSector3Time"), (1,binio.types.t_float32,"sWorldFastestSector1Time"), (1,binio.types.t_float32,"sWorldFastestSector2Time"), (1,binio.types.t_float32,"sWorldFastestSector3Time"), (1,binio.types.t_float32,"sTrackLength"), (64,binio.types.t_string_utf8,"sTrackLocation"), (64,binio.types.t_string_utf8,"sTrackVariation"), (64,binio.types.t_string_utf8,"sTranslatedTrackLocation"), (64,binio.types.t_string_utf8,"sTranslatedTrackVariation"), (1,binio.types.t_u8,"sLapsTimeInEvent"), (1,binio.types.t_int8,"sEnforcedPitStopLap") ]) def __getitem__(self, key): return self._data[key]
def read_d_data(sheader, ch_list, samp_start, samp_end):
"""
Function to read the data from .d file
Parameters:
----------
sheader - standard header (dictionary)\n
ch_list - list of channel idxs (list)\n
samp_start - start sample (int)\n
samp_end - end sample (int)\n
Returns:
--------
data - data from .d file (list), corresponding to ch_list\n
"""
### Open the .d file
f = open(sheader['file_name'], "rb")
### Retype the start and end
samp_start = int(samp_start)
samp_end = int(samp_end)
### Just a precaution
if samp_end >= sheader['nsamp']:
print("\n End sample " + str(samp_end) +
" equal or bigger than n samples of file (" +
str(sheader['nsamp']) + "), setting to the end of the file \n")
samp_end = sheader['nsamp'] - 1
### Get the precision - we have function for this!!!
prec, nb = get_prec(sheader)
### Get the first sample
ds1 = sheader['data_org'] + (samp_start - 1) * nb * sheader['nchan']
n_samp = samp_end - samp_start
f.seek(ds1)
### Read the data
dat_type = binio.new(
str(n_samp * sheader['nchan']) + " : " + prec + " : data")
try:
f.seek(ds1)
dd = dat_type.read_struct(f)
except:
print('Error reading data')
#print '\n '+str(samp_end)+' in '+str(sheader['nsamp'])+' \n'
return
### Now get the desired channel
# data = np.zeros([len(ch_list),n_samp],dtype=prec)
# for i,x in enumerate(ch_list):
# data[i] = np.array(dd.data[x::sheader['nchan']])
if len(ch_list) == 1:
return np.array(dd.data).reshape(n_samp, sheader['nchan'])[:,
ch_list[0]]
else:
return np.array(dd.data).reshape(n_samp, sheader['nchan'])[:, ch_list]
def read_d_header(file_name, read_tags=False):
"""
Function to read .d file standard and extended header
Parameters:
----------
file_name - name of the file (string)\n
read_tags - whether the tags should be read(default=False)\n
Returns:
----------
sheader - standard header (dictionary)\n
xheader - extended header (dictionary)\n
"""
# Open the .d file
f = open(file_name, "rb")
# Reading standard header
sheader_struct = binio.new("# Standard header struct\n"
"15 : string : sign\n"
"1 : string : ftype\n"
"1 : uint8 : nchan\n"
"1 : uint8 : naux\n"
"1 : uint16 : fsamp\n"
"1 : uint32 : nsamp\n"
"1 : uint8 : d_val # This is to be done\n"
"1 : uint8 : unit\n"
"1 : uint16 : zero\n"
"1 : uint16 : data_org\n"
"1 : int16 : data_xhdr_org\n")
sheader = sheader_struct.read_dict(f)
sheader['file_name'] = file_name
# Create a dictionary in d_val field - to be done
dval_dict = {}
dval_dict['value'] = sheader['d_val']
dval_dict['data_invalid'] = int(np.floor(sheader['d_val'] / 128) % 2)
dval_dict['data_packed'] = int(np.floor(sheader['d_val'] / 64) % 2)
dval_dict['block_structure'] = int(np.floor(sheader['d_val'] / 32) % 2)
dval_dict['polarity'] = int(np.floor(sheader['d_val'] / 16) % 2)
dval_dict['data_calib'] = int(np.floor(sheader['d_val'] / 8) % 2)
dval_dict['data_modified'] = int(np.floor(sheader['d_val'] / 4) % 2)
dval_dict['data_cell_size'] = int(sheader['d_val'] % 4)
sheader['d_val'] = dval_dict
# Fix the data_org_fields
sheader['data_org'] = 16 * sheader['data_org']
sheader['data_xhdr_org'] = 16 * sheader['data_xhdr_org']
### Reading extended header
xheader = {}
# We need to define a dictionary for xhdr (we don't have switch-case)
xhdr_dict = {
16725: [" : uint8 : authentication_key\n", 0],
22082: [" : uint8 : block_var_list\n", 0],
16707: [" : uint8 : channel_atrib\n", 0],
18755: [" : uint8 : calib_info\n", 0],
20035: [" : uint8 : channel_names\n", 0], #Finish here
17988: [" : uint8 : dispose_flags\n", 0],
18756: [" : char : data_info\n", 0],
19526: [" : char : file_links\n", 0],
21318: [" : int16 : freq\n", 2], # Finish here
17481: [" : uint32: patient_id\n", 1], # Finish here
19024: [" : char : project_name\n", 0],
16978: [" : uint8 : rblock\n", 0],
18003: [" : char : source_file\n", 0],
17748: [" : char : text_record\n", 0],
18772: [" : uint32: time_info\n", 1], # UTC from 1.1.1970
21588: [" : uint16: tag_tableen\n", 2, " : uint32: tag_tableoff\n", 2],
22612: [" : char : text_extrec\n", 0],
0: 0
}
if sheader['data_xhdr_org'] != 0:
f.seek(sheader['data_xhdr_org'])
cont = 1
while cont:
field_struct = binio.new("1 : uint16 : mnemo\n"
"1 : uint16 : field_len\n")
field = field_struct.read_dict(f)
#xhdr dictionary check
if field['mnemo'] in xhdr_dict:
if field['mnemo'] == 0:
cont = 0
sheader['datapos'] = f.tell()
elif field['mnemo'] == 21588:
io_txt = str(xhdr_dict[field['mnemo']][1]) + xhdr_dict[
field['mnemo']][0] + str(xhdr_dict[
field['mnemo']][3]) + xhdr_dict[field['mnemo']][2]
field_cont = binio.new(io_txt)
xheader.update(field_cont.read_dict(f))
elif xhdr_dict[field['mnemo']][1] == 0:
io_txt = str(
field['field_len']) + xhdr_dict[field['mnemo']][0]
field_cont = binio.new(io_txt)
xheader.update(field_cont.read_dict(f))
else:
io_txt = str(xhdr_dict[field['mnemo']][1]) + xhdr_dict[
field['mnemo']][0]
field_cont = binio.new(io_txt)
xheader.update(field_cont.read_dict(f))
else:
f.seek(field['field_len'], 1)
#Now fix stuff
if 'channel_names' in xheader:
char_lst = [chr(x) for x in xheader['channel_names']]
channels = [
''.join(char_lst[x:x + 4]) for x in range(0, len(char_lst), 4)
]
channels = [x.replace('\x00', '') for x in channels]
xheader['channel_names'] = channels
if 'tag_tableen' in xheader:
xheader['tag_table'] = xheader['tag_tableen'] + xheader['tag_tableoff']
xheader.pop('tag_tableen')
xheader.pop('tag_tableoff')
### Read tags
if 'tag_table' in xheader and read_tags:
xheader['tags'] = {}
xheader['tags']['tag_pos'] = []
xheader['tags']['tag_class'] = []
xheader['tags']['tag_selected'] = []
xheader['tags']['classes'] = []
#Fix datasets bug in D-file with defoff and listoff
pr, nb = get_prec(sheader)
while xheader['tag_table'][2] < (
sheader['nchan'] * sheader['nsamp'] * nb + sheader['data_org']
) and xheader['tag_table'][2] > sheader['datapos']:
xheader['tag_table'][2] += 16**8
xheader['tag_table'][3] += 16**8
#Read tag list
f.seek(xheader['tag_table'][3])
tag_list_struct = binio.new(
str(int(4 * np.floor(float(xheader['tag_table'][1]) / 4.0))) +
" : uint8 : tlist")
tag_list = tag_list_struct.read_dict(f)
tag_list = tag_list['tlist']
tag_list = [tag_list[x:x + 4] for x in range(0, len(tag_list), 4)]
for x in range(len(tag_list)):
tag_list[x][2] = tag_list[x][2] % 128
tag_pos = []
for x in tag_list:
tag_pos.append((x[0] * 1) + (x[1] * 256) + (x[2] * 65536))
xheader['tags']['tag_pos'] = tag_pos
xheader['tags']['tag_class'] = [x[3] % 128 for x in tag_list]
xheader['tags']['tag_selected'] = [
np.floor(float(x[3]) / 128.0) for x in tag_list
]
#Fix the long datasets bug in D-file (positions > 2 ** 23-1)
if xheader['tags']['tag_pos'] != []:
cont1 = 1
while cont1:
wh = [
list(np.diff(xheader['tags']['tag_pos'])).index(x)
for x in list(np.diff(xheader['tags']['tag_pos'])) if x < 0
]
if wh == []:
cont1 = 0
else:
xheader['tags']['tag_pos'][wh[0] + 1:] = [
x + (2**23)
for x in xheader['tags']['tag_pos'][wh[0] + 1:]
]
#Read the tag table
currpos = xheader['tag_table'][2]
cont1 = 1
while cont1:
f.seek(currpos)
tag_read_dic = binio.new("2 : char : abrv\n"
"1 : uint16 : n\n"
"1 : uint16 : txtlen\n"
"1 : uint16 : txtoff\n")
curr_tag = tag_read_dic.read_dict(f)
currpos += 8
if np.floor(curr_tag['n'] / 32768):
cont1 = 0
f.seek(curr_tag['txtoff'] + xheader['tag_table'][2])
xheader['tags']['classes'].append([
curr_tag['abrv'], curr_tag['n'] % 32768,
str(f.read(curr_tag['txtlen']))
])
return sheader, xheader
class TelemetryPacket(Packet):
STRUCTURE = binio.new([
(1, binio.types.t_u8, "gameSessionState"),
(1, binio.types.t_int8, "viewedParticipantIndex"),
(1, binio.types.t_int8, "numParticipants"),
# Unfiltered input
(1, binio.types.t_u8, "unfilteredThrottle"),
(1, binio.types.t_u8, "unfilteredBrake"),
(1, binio.types.t_int8, "unfilteredSteering"),
(1, binio.types.t_u8, "unfilteredClutch"),
# ?
(1, binio.types.t_u8, "raceStateFlags"),
(1, binio.types.t_u8, "lapsInEvent"),
# Timing info
(1, binio.types.t_float32, "bestLapTime"),
(1, binio.types.t_float32, "lastLapTime"),
(1, binio.types.t_float32, "currentTime"),
(1, binio.types.t_float32, "splitTimeAhead"),
(1, binio.types.t_float32, "splitTimeBehind"),
(1, binio.types.t_float32, "splitTime"),
(1, binio.types.t_float32, "eventTimeRemaining"),
(1, binio.types.t_float32, "personalFastestLapTime"),
(1, binio.types.t_float32, "worldFastestLapTime"),
(1, binio.types.t_float32, "currentSector1Time"),
(1, binio.types.t_float32, "currentSector2Time"),
(1, binio.types.t_float32, "currentSector3Time"),
(1, binio.types.t_float32, "fastestSector1Time"),
(1, binio.types.t_float32, "fastestSector2Time"),
(1, binio.types.t_float32, "fastestSector3Time"),
(1, binio.types.t_float32, "personalFastestSector1Time"),
(1, binio.types.t_float32, "personalFastestSector2Time"),
(1, binio.types.t_float32, "personalFastestSector3Time"),
(1, binio.types.t_float32, "worldFastestSector1Time"),
(1, binio.types.t_float32, "worldFastestSector2Time"),
(1, binio.types.t_float32, "worldFastestSector3Time"),
# Joypad state?
(1, binio.types.t_u16, "joyPad"),
# Flags
(1, binio.types.t_u8, "highestFlag"),
# Pit schedule
(1, binio.types.t_u8, "pitModeSchedule"),
# Car state
(1, binio.types.t_int16, "oilTempCelsius"),
(1, binio.types.t_u16, "oilPressureKPa"),
(1, binio.types.t_int16, "waterTempCelsius"),
(1, binio.types.t_u16, "waterPressureKPa"),
(1, binio.types.t_u16, "fuelPressureKPa"),
(1, binio.types.t_u8, "carFlags"),
(1, binio.types.t_u8, "fuelCapacity"),
(1, binio.types.t_u8, "brake"),
(1, binio.types.t_u8, "throttle"),
(1, binio.types.t_u8, "clutch"),
(1, binio.types.t_int8, "steering"),
(1, binio.types.t_float32, "fuelLevel"),
(1, binio.types.t_float32, "speed"),
(1, binio.types.t_u16, "rpm"),
(1, binio.types.t_u16, "maxRpm"),
(1, binio.types.t_u8, "gearNumGears"),
(1, binio.types.t_u8, "boostAmount"),
(1, binio.types.t_int8, "enforcedPitStopLap"),
(1, binio.types.t_u8, "crashState"),
# Motion and device
(1, binio.types.t_float32, "odometerKM"),
(1, binio.types.t_float32, "orientationX"),
(1, binio.types.t_float32, "orientationY"),
(1, binio.types.t_float32, "orientationZ"),
(1, binio.types.t_float32, "localVelocityX"),
(1, binio.types.t_float32, "localVelocityY"),
(1, binio.types.t_float32, "localVelocityZ"),
(1, binio.types.t_float32, "worldVelocityX"),
(1, binio.types.t_float32, "worldVelocityY"),
(1, binio.types.t_float32, "worldVelocityZ"),
(1, binio.types.t_float32, "angularVelocityX"),
(1, binio.types.t_float32, "angularVelocityY"),
(1, binio.types.t_float32, "angularVelocityZ"),
(1, binio.types.t_float32, "localAccelerationX"),
(1, binio.types.t_float32, "localAccelerationY"),
(1, binio.types.t_float32, "localAccelerationZ"),
(1, binio.types.t_float32, "worldAccelerationX"),
(1, binio.types.t_float32, "worldAccelerationY"),
(1, binio.types.t_float32, "worldAccelerationZ"),
(1, binio.types.t_float32, "extentsCentreX"),
(1, binio.types.t_float32, "extentsCentreY"),
(1, binio.types.t_float32, "extentsCentreZ"),
])
TYRES_STRUCTURE = [ # This is a list of binio typedefs - each is repeated for each wheel before the next typedef.
(1, binio.types.t_u8, "tyreFlags"),
(1, binio.types.t_u8, "terrain"),
(1, binio.types.t_float32, "tyreY"),
(1, binio.types.t_float32, "tyreRPS"),
(1, binio.types.t_float32, "tyreSlipSpeed"),
(1, binio.types.t_u8, "tyreTemp"),
(1, binio.types.t_u8, "tyreGrip"),
(1, binio.types.t_float32, "tyreHeightAboveGround"),
(1, binio.types.t_float32, "tyreLateralStiffness"),
(1, binio.types.t_u8, "tyreWear"),
(1, binio.types.t_u8, "brakeDamage"),
(1, binio.types.t_u8, "suspensionDamage"),
(1, binio.types.t_int16, "brakeTempCelsius"),
(1, binio.types.t_u16, "tyreTreadTemp"),
(1, binio.types.t_u16, "tyreLayerTemp"),
(1, binio.types.t_u16, "tyreCarcassTemp"),
(1, binio.types.t_u16, "tyreRimTemp"),
(1, binio.types.t_u16, "tyreInternalAirTemp"),
(1, binio.types.t_float32, "wheelLocalPositionY"),
(1, binio.types.t_float32, "rideHeight"),
(1, binio.types.t_float32, "suspensionTravel"),
(1, binio.types.t_float32, "suspensionVelocity"),
(1, binio.types.t_u16, "airPressure"),
]
EXTRAS_WEATHER_STRUCTURE = binio.new([
(1, binio.types.t_float32, "engineSpeed"),
(1, binio.types.t_float32, "engineTorque"),
(1, binio.types.t_u8, "aeroDamage"),
(1, binio.types.t_u8, "engineDamage"),
(1, binio.types.t_int8, "ambientTemperature"),
(1, binio.types.t_int8, "trackTemperature"),
(1, binio.types.t_u8, "rainDensity"),
(1, binio.types.t_int8, "windSpeed"),
(1, binio.types.t_int8, "windDirectionX"),
(1, binio.types.t_int8, "windDirectionY"),
])
PARTICIPANT_INFO_STRUCTURE = binio.new([
(1, binio.types.t_int16, "worldPositionX"),
(1, binio.types.t_int16, "worldPositionY"),
(1, binio.types.t_int16, "worldPositionZ"),
(1, binio.types.t_u16, "currentLapDistance"),
(1, binio.types.t_u8, "racePosition"),
(1, binio.types.t_u8, "lapsCompleted"),
(1, binio.types.t_u8, "currentLap"),
(1, binio.types.t_u8, "sector"),
(1, binio.types.t_float32, "lastSectorTime"),
])
EPILOGUE_STRUCTURE = binio.new([
(1, binio.types.t_float32, "trackLength"),
(1, binio.types.t_u8, "wings1"),
(1, binio.types.t_u8, "wings2"),
(1, binio.types.t_u8, "dPad"),
#(1, binio.types.t_u16, "padding")
])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(TelemetryPacket,
self).__init__(buildVersion, sequenceNumber, packetType,
buf) # everything up to tyre information
self.tyres = [{}, {}, {}, {}]
for datapoint in TelemetryPacket.TYRES_STRUCTURE:
self.forEachTyre(datapoint, buf)
self.data.update(
TelemetryPacket.EXTRAS_WEATHER_STRUCTURE.read_dict(buf))
self.participants = []
for _ in range(0, 56):
p = TelemetryPacket.PARTICIPANT_INFO_STRUCTURE.read_dict(buf)
# Unpack some data within
p["isActive"] = (p["racePosition"] & 0x80) >> 7
p["racePosition"] = p["racePosition"] & 0x7F
p["lapInvalidated"] = (p["lapsCompleted"] & 0x80) >> 7
p["lapsCompleted"] = p["lapsCompleted"] & 0x7F
p["classSameAsPlayer"] = (p["sector"] & 0x08) > 0
p["sector"] = Sector(p["sector"] & 0x07)
self.participants.append(p)
self.data.update(TelemetryPacket.EPILOGUE_STRUCTURE.read_dict(buf))
# Unpack data
self.data["gameState"] = GameState(self.data["gameSessionState"]
& 0x07)
self.data["sessionState"] = SessionState((self.data["gameSessionState"]
& 0x38) >> 2)
self.data["raceState"] = RaceState(self.data["raceStateFlags"] & 0x7)
self.data["lapInvalidated"] = (self.data["raceStateFlags"] & 8) > 0
self.data["antiLockActive"] = (self.data["raceStateFlags"] & 16) > 0
self.data["boostActive"] = (self.data["raceStateFlags"] & 32) > 0
self.data["gear"] = self.data['gearNumGears'] & 0x0F
self.data["numGears"] = (self.data['gearNumGears'] & 0xF0) >> 4
self.data["pitMode"] = PitMode(self.data["pitModeSchedule"] & 0x07)
self.data["pitSchedule"] = PitSchedule((self.data["pitModeSchedule"]
& 0xF0) << 4)
self.data["highestFlagColour"] = FlagColour(self.data["highestFlag"]
& 0x7)
self.data["highestFlagReason"] = FlagReason((self.data["highestFlag"]
& 0xF0) << 4)
def forEachTyre(self, datapoint, buf):
thisField = binio.new([datapoint])
for i in Tyres:
self.tyres[i.value][datapoint[2]] = thisField.read_dict(buf)[
datapoint[2]]
def getValue(self, key):
return self.data[key]
def forEachTyre(self, datapoint, buf):
thisField = binio.new([datapoint])
for i in Tyres:
self.tyres[i.value][datapoint[2]] = thisField.read_dict(buf)[
datapoint[2]]
def forEachTyre(self, datapoint, buf):
thisField = binio.new([datapoint])
for i in Tyres:
self.tyres[i.value][datapoint[2]] = thisField.read_dict(buf)[datapoint[2]]
class TelemetryPacket(Packet):
STRUCTURE = binio.new([
(1, binio.types.t_int8, "viewedParticipantIndex"),
# Unfiltered input
(1, binio.types.t_u8, "unfilteredThrottle"),
(1, binio.types.t_u8, "unfilteredBrake"),
(1, binio.types.t_int8, "unfilteredSteering"),
(1, binio.types.t_u8, "unfilteredClutch"),
# Flags
(1, binio.types.t_u8, "raceStateFlags"),
# Data
(1, binio.types.t_int16, "oilTempCelsius"),
(1, binio.types.t_u16, "oilPressureKPa"),
(1, binio.types.t_int16, "waterTempCelsius"),
(1, binio.types.t_u16, "waterPressureKPa"),
(1, binio.types.t_u16, "fuelPressureKPa"),
(1, binio.types.t_u8, "fuelCapacity"),
(1, binio.types.t_u8, "brake"),
(1, binio.types.t_u8, "throttle"),
(1, binio.types.t_u8, "clutch"),
(1, binio.types.t_float, "fuelLevel"),
(1, binio.types.t_float, "speed"),
(1, binio.types.t_u16, "rpm"),
(1, binio.types.t_u16, "maxRpm"),
(1, binio.types.t_int8, "steering"),
(1, binio.types.t_u8, "gearNumGears"),
(1, binio.types.t_u8, "boostAmount"),
(1, binio.types.t_u8, "crashState"),
# Motion and device
(1, binio.types.t_float32, "odometerKM"),
(1, binio.types.t_float32, "orientationX"),
(1, binio.types.t_float32, "orientationY"),
(1, binio.types.t_float32, "orientationZ"),
(1, binio.types.t_float32, "localVelocityX"),
(1, binio.types.t_float32, "localVelocityY"),
(1, binio.types.t_float32, "localVelocityZ"),
(1, binio.types.t_float32, "worldVelocityX"),
(1, binio.types.t_float32, "worldVelocityY"),
(1, binio.types.t_float32, "worldVelocityZ"),
(1, binio.types.t_float32, "angularVelocityX"),
(1, binio.types.t_float32, "angularVelocityY"),
(1, binio.types.t_float32, "angularVelocityZ"),
(1, binio.types.t_float32, "localAccelerationX"),
(1, binio.types.t_float32, "localAccelerationY"),
(1, binio.types.t_float32, "localAccelerationZ"),
(1, binio.types.t_float32, "worldAccelerationX"),
(1, binio.types.t_float32, "worldAccelerationY"),
(1, binio.types.t_float32, "worldAccelerationZ"),
(1, binio.types.t_float32, "extentsCentreX"),
(1, binio.types.t_float32, "extentsCentreY"),
(1, binio.types.t_float32, "extentsCentreZ"),
])
TYRES_STRUCTURE = [ # This is a list of binio typedefs - each is repeated for each wheel before the next typedef.
(1, binio.types.t_u8, "tyreFlags"),
(1, binio.types.t_u8, "terrain"),
(1, binio.types.t_float32, "tyreY"),
(1, binio.types.t_float32, "tyreRPS"),
(1, binio.types.t_u8, "tyreTemp"),
(1, binio.types.t_float32, "tyreHeightAboveGround"),
(1, binio.types.t_u8, "tyreWear"),
(1, binio.types.t_u8, "brakeDamage"),
(1, binio.types.t_u8, "suspensionDamage"),
(1, binio.types.t_int16, "brakeTempCelsius"),
(1, binio.types.t_u16, "tyreTreadTemp"),
(1, binio.types.t_u16, "tyreLayerTemp"),
(1, binio.types.t_u16, "tyreCarcassTemp"),
(1, binio.types.t_u16, "tyreRimTemp"),
(1, binio.types.t_u16, "tyreInternalAirTemp"),
(1, binio.types.t_u16, "tyreTempLeft"),
(1, binio.types.t_u16, "tyreTempCenter"),
(1, binio.types.t_u16, "tyreTempRight"),
(1, binio.types.t_float32, "wheelLocalPositionY"),
(1, binio.types.t_float32, "rideHeight"),
(1, binio.types.t_float32, "suspensionTravel"),
(1, binio.types.t_float32, "suspensionVelocity"),
(1, binio.types.t_u16, "suspensionRideHeight"),
(1, binio.types.t_u16, "airPressure"),
]
STRUCTURE_2 = binio.new([
(1, binio.types.t_float32, "engineSpeed"),
(1, binio.types.t_float32, "engineTorque"),
(1, binio.types.t_u8, "wings1"),
(1, binio.types.t_u8, "wings2"),
(1, binio.types.t_u8, "handBrake"),
(1, binio.types.t_u8, "aeroDamage"),
(1, binio.types.t_u8, "engineDamage"),
(1, binio.types.t_uint, "joyPad"),
(1, binio.types.t_u8, "dPad"),
])
TYRES_STRUCTURE_2 = binio.new([
(40, binio.types.t_char, "tyreCompound"),
])
def __init__(self, buildVersion, sequenceNumber, packetType, buf):
super(TelemetryPacket, self).__init__(buildVersion, sequenceNumber, packetType, buf) # everything up to tyre information
self._data["tyres"] = [{}, {}, {}, {}]
for datapoint in TelemetryPacket.TYRES_STRUCTURE:
self._forEachTyre(datapoint, buf)
#
self._data.update(TelemetryPacket.STRUCTURE_2.read_dict(buf))
# self._forEachTyre(TelemetryPacket.TYRES_STRUCTURE_2, buf)
# for i in Tyres:
# self._data["tyres"][i.value][TelemetryPacket.TYRES_STRUCTURE_2[2]] = thisField.read_dict(buf)[datapoint[2]]
def _forEachTyre(self, datapoint, buf):
thisField = binio.new([datapoint])
for i in Tyres:
self._data["tyres"][i.value][datapoint[2]] = thisField.read_dict(buf)[datapoint[2]]
def __getitem__(self, key):
return self._data[key]
UnsignedShortField ('client_data_hash_len', big_endian=True),
StringField ('client_data_hash',
length_field_name='client_data_hash_len'),
)
class FIDOAttestationParser(Parser):
ChunkClasses = (
FIDOAttestationChunk,
)
example = FIDOAttestationParser(StringIO(a), len(a))
#example.parse() Loops forever
#print 'chunker'
#print '\t', example.chunks
import binio
FIDOAttestation = binio.new("""
1: uint16: tag # Comments also work
1: uint8: flags
1: uint32: sign_count
1: uint16: pubkey_encoding
1: uint16: pubkey_len
pubkey_len: byte: pubkey
1: uint16: key_handle_len
key_handle_len: byte: key_handle
1: uint16: client_data_hash_len
client_data_hash_len: byte: client_data_hash
""")
print 'binio'
print '\t', FIDOAttestation.read_dict(StringIO(a), binio.BYTE_ORDER_BIG_ENDIAN)
print '\t', FIDOAttestation.read_struct(StringIO(a), binio.BYTE_ORDER_BIG_ENDIAN)
