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Bug #9101 » vx8_test.py

Jim Unroe, 06/07/2021 12:41 PM

 
# Copyright 2010 Dan Smith <dsmith@danplanet.com>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.

import os
import re
import logging

from chirp.drivers import yaesu_clone
from chirp import chirp_common, directory, bitwise
from chirp.settings import RadioSettingGroup, RadioSetting, RadioSettings
from chirp.settings import RadioSettingValueInteger, RadioSettingValueString
from chirp.settings import RadioSettingValueList, RadioSettingValueBoolean
from textwrap import dedent

LOG = logging.getLogger(__name__)

MEM_FORMAT = """
#seekto 0x047f;
struct {
u8 flag;
u16 unknown;
struct {
u8 padded_yaesu[16];
} message;
} opening_message;

#seekto 0x049a;
struct {
u8 vfo_a;
u8 vfo_b;
} squelch;

#seekto 0x04bf;
struct {
u8 beep;
} beep_select;

#seekto 0x04cc;
struct {
u8 lcd_dimmer;
u8 dtmf_delay;
u8 unknown0[3];
u8 unknown1:4
lcd_contrast:4;
u8 lamp;
u8 unknown2[7];
u8 scan_restart;
u8 unknown3;
u8 scan_resume;
u8 unknown4[6];
u8 tot;
u8 unknown5[3];
u8 unknown6:2,
scan_lamp:1,
unknown7:2,
dtmf_speed:1,
unknown8:1,
dtmf_mode:1;
u8 busy_led:1,
unknown9:7;
u8 unknown10[2];
u8 vol_mode:1,
unknown11:7;
} scan_settings;

#seekto 0x54a;
struct {
u16 in_use;
} bank_used[24];

#seekto 0x064a;
struct {
u8 unknown0[4];
u8 frequency_band;
u8 unknown1:6,
manual_or_mr:2;
u8 unknown2:7,
mr_banks:1;
u8 unknown3;
u16 mr_index;
u16 bank_index;
u16 bank_enable;
u8 unknown4[5];
u8 unknown5:6,
power:2;
u8 unknown6:4,
tune_step:4;
u8 unknown7:6,
duplex:2;
u8 unknown8:6,
tone_mode:2;
u8 unknown9:2,
tone:6;
u8 unknown10;
u8 unknown11:6,
mode:2;
bbcd freq0[4];
bbcd offset_freq[4];
u8 unknown12[2];
char label[16];
u8 unknown13[6];
bbcd band_lower[4];
bbcd band_upper[4];
bbcd rx_freq[4];
u8 unknown14[22];
bbcd freq1[4];
u8 unknown15[11];
u8 unknown16:3,
volume:5;
u8 unknown17[18];
u8 active_menu_item;
u8 checksum;
} vfo_info[6];

#seekto 0x094a;
struct {
u8 memory[16];
} dtmf[10];

#seekto 0x135A;
struct {
u8 unknown[2];
u8 name[16];
} bank_info[24];

#seekto 0x198a;
struct {
u16 channel[100];
} bank_members[24];

#seekto 0x2C4A;
struct {
u8 nosubvfo:1,
unknown:3,
pskip:1,
skip:1,
used:1,
valid:1;
} flag[900];

#seekto 0x328A;
struct {
u8 unknown1a:2,
half_deviation:1,
unknown1b:5;
u8 mode:2,
duplex:2,
tune_step:4;
bbcd freq[3];
u8 power:2,
unknown2:4,
tone_mode:2;
u8 charsetbits[2];
char label[16];
bbcd offset[3];
u8 unknown5:2,
tone:6;
u8 unknown6:1,
dcs:7;
u8 pr_frequency;
u8 unknown7;
u8 unknown8a:3,
unknown8b:1,
rx_mode_auto:1,
unknown8c:3;
} memory[900];

#seekto 0xC0CA;
struct {
u8 unknown0:6,
rx_baud:2;
u8 unknown1:4,
tx_delay:4;
u8 custom_symbol;
u8 unknown2;
struct {
char callsign[6];
u8 ssid;
} my_callsign;
u8 unknown3:4,
selected_position_comment:4;
u8 unknown4;
u8 set_time_manually:1,
tx_interval_beacon:1,
ring_beacon:1,
ring_msg:1,
aprs_mute:1,
unknown6:1,
tx_smartbeacon:1,
af_dual:1;
u8 unknown7:1,
aprs_units_wind_mph:1,
aprs_units_rain_inch:1,
aprs_units_temperature_f:1
aprs_units_altitude_ft:1,
unknown8:1,
aprs_units_distance_m:1,
aprs_units_position_mmss:1;
u8 unknown9:6,
aprs_units_speed:2;
u8 unknown11:1,
filter_other:1,
filter_status:1,
filter_item:1,
filter_object:1,
filter_weather:1,
filter_position:1,
filter_mic_e:1;
u8 unknown12:2,
timezone:6;
u8 unknown13:4,
beacon_interval:4;
u8 unknown14;
u8 unknown15:7,
latitude_sign:1;
u8 latitude_degree;
u8 latitude_minute;
u8 latitude_second;
u8 unknown16:7,
longitude_sign:1;
u8 longitude_degree;
u8 longitude_minute;
u8 longitude_second;
u8 unknown17:4,
selected_position:4;
u8 unknown18:5,
selected_beacon_status_txt:3;
u8 unknown19:6,
gps_units_altitude_ft:1,
gps_units_position_sss:1;
u8 unknown20:6,
gps_units_speed:2;
u8 unknown21[4];
struct {
struct {
char callsign[6];
u8 ssid;
} entry[8];
} digi_path_7;
u8 unknown22[2];
} aprs;

#seekto 0x%04X;
struct {
char padded_string[16];
} aprs_msg_macro[%d];

#seekto 0x%04X;
struct {
u8 unknown23:5,
selected_msg_group:3;
u8 unknown24;
struct {
char padded_string[9];
} msg_group[8];
u8 unknown25[4];
u8 active_smartbeaconing;
struct {
u8 low_speed_mph;
u8 high_speed_mph;
u8 slow_rate_min;
u8 fast_rate_sec;
u8 turn_angle;
u8 turn_slop;
u8 turn_time_sec;
} smartbeaconing_profile[3];
u8 unknown26:2,
flash_msg:6;
u8 unknown27:2,
flash_grp:6;
u8 unknown28:2,
flash_bln:6;
u8 selected_digi_path;
struct {
struct {
char callsign[6];
u8 ssid;
} entry[2];
} digi_path_3_6[4];
u8 unknown30:6,
selected_my_symbol:2;
u8 unknown31[3];
u8 unknown32:2,
vibrate_msg:6;
u8 unknown33:2,
vibrate_grp:6;
u8 unknown34:2,
vibrate_bln:6;
} aprs2;

#seekto 0x%04X;
struct {
bbcd date[3];
u8 unknown1;
bbcd time[2];
u8 sequence;
u8 unknown2;
u8 sender_callsign[7];
u8 data_type;
u8 yeasu_data_type;
u8 unknown3;
u8 unknown4:1,
callsign_is_ascii:1,
unknown5:6;
u8 unknown6;
u16 pkt_len;
u16 in_use;
} aprs_beacon_meta[%d];

#seekto 0x%04X;
struct {
u8 dst_callsign[6];
u8 dst_callsign_ssid;
u8 src_callsign[6];
u8 src_callsign_ssid;
u8 path_and_body[%d];
} aprs_beacon_pkt[%d];

#seekto 0xf92a;
struct {
char padded_string[60];
} aprs_beacon_status_txt[5];

#seekto 0xFECA;
u8 checksum;
"""

TMODES = ["", "Tone", "TSQL", "DTCS"]
DUPLEX = ["", "-", "+", "split"]
MODES = ["FM", "AM", "WFM", "NFM"]
STEPS = list(chirp_common.TUNING_STEPS)
STEPS.remove(30.0)
STEPS.append(100.0)
STEPS.insert(2, 8.33) # Index 2 is 8.33kHz airband step
SKIPS = ["", "S", "P"]
VX8_DTMF_CHARS = list("0123456789ABCD*#-")

CHARSET = ["%i" % int(x) for x in range(0, 10)] + \
[chr(x) for x in range(ord("A"), ord("Z")+1)] + \
[" "] + \
[chr(x) for x in range(ord("a"), ord("z")+1)] + \
list(".,:;*#_-/&()@!?^ ") + list("\x00" * 100)

POWER_LEVELS = [chirp_common.PowerLevel("Hi", watts=5.00),
chirp_common.PowerLevel("L3", watts=2.50),
chirp_common.PowerLevel("L2", watts=1.00),
chirp_common.PowerLevel("L1", watts=0.05)]


class VX8Bank(chirp_common.NamedBank):
"""A VX-8 bank"""

def get_name(self):
_bank = self._model._radio._memobj.bank_info[self.index]
_bank_used = self._model._radio._memobj.bank_used[self.index]

name = ""
for i in _bank.name:
if i == 0xFF:
break
name += CHARSET[i & 0x7F]
return name.rstrip()

def set_name(self, name):
_bank = self._model._radio._memobj.bank_info[self.index]
_bank.name = [CHARSET.index(x) for x in name.ljust(16)[:16]]


class VX8BankModel(chirp_common.BankModel):
"""A VX-8 bank model"""
def __init__(self, radio, name='Banks'):
super(VX8BankModel, self).__init__(radio, name)

_banks = self._radio._memobj.bank_info
self._bank_mappings = []
for index, _bank in enumerate(_banks):
bank = VX8Bank(self, "%i" % index, "BANK-%i" % index)
bank.index = index
self._bank_mappings.append(bank)

def get_num_mappings(self):
return len(self._bank_mappings)

def get_mappings(self):
return self._bank_mappings

def _channel_numbers_in_bank(self, bank):
_bank_used = self._radio._memobj.bank_used[bank.index]
if _bank_used.in_use == 0xFFFF:
return set()

_members = self._radio._memobj.bank_members[bank.index]
return set([int(ch) + 1 for ch in _members.channel if ch != 0xFFFF])

def update_vfo(self):
chosen_bank = [None, None]
chosen_mr = [None, None]

flags = self._radio._memobj.flag

# Find a suitable bank and MR for VFO A and B.
for bank in self.get_mappings():
for channel in self._channel_numbers_in_bank(bank):
chosen_bank[0] = bank.index
chosen_mr[0] = channel
if not flags[channel].nosubvfo:
chosen_bank[1] = bank.index
chosen_mr[1] = channel
break
if chosen_bank[1]:
break

for vfo_index in (0, 1):
# 3 VFO info structs are stored as 3 pairs of (master, backup)
vfo = self._radio._memobj.vfo_info[vfo_index * 2]
vfo_bak = self._radio._memobj.vfo_info[(vfo_index * 2) + 1]

if vfo.checksum != vfo_bak.checksum:
LOG.warn("VFO settings are inconsistent with backup")
else:
if ((chosen_bank[vfo_index] is None) and
(vfo.bank_index != 0xFFFF)):
LOG.info("Disabling banks for VFO %d" % vfo_index)
vfo.bank_index = 0xFFFF
vfo.mr_index = 0xFFFF
vfo.bank_enable = 0xFFFF
elif ((chosen_bank[vfo_index] is not None) and
(vfo.bank_index == 0xFFFF)):
LOG.debug("Enabling banks for VFO %d" % vfo_index)
vfo.bank_index = chosen_bank[vfo_index]
vfo.mr_index = chosen_mr[vfo_index]
vfo.bank_enable = 0x0000
vfo_bak.bank_index = vfo.bank_index
vfo_bak.mr_index = vfo.mr_index
vfo_bak.bank_enable = vfo.bank_enable

def _update_bank_with_channel_numbers(self, bank, channels_in_bank):
_members = self._radio._memobj.bank_members[bank.index]
if len(channels_in_bank) > len(_members.channel):
raise Exception("Too many entries in bank %d" % bank.index)

empty = 0
for index, channel_number in enumerate(sorted(channels_in_bank)):
_members.channel[index] = channel_number - 1
empty = index + 1
for index in range(empty, len(_members.channel)):
_members.channel[index] = 0xFFFF

def add_memory_to_mapping(self, memory, bank):
channels_in_bank = self._channel_numbers_in_bank(bank)
channels_in_bank.add(memory.number)
self._update_bank_with_channel_numbers(bank, channels_in_bank)

_bank_used = self._radio._memobj.bank_used[bank.index]
_bank_used.in_use = 0x06

self.update_vfo()

def remove_memory_from_mapping(self, memory, bank):
channels_in_bank = self._channel_numbers_in_bank(bank)
try:
channels_in_bank.remove(memory.number)
except KeyError:
raise Exception("Memory %i is not in bank %s. Cannot remove" %
(memory.number, bank))
self._update_bank_with_channel_numbers(bank, channels_in_bank)

if not channels_in_bank:
_bank_used = self._radio._memobj.bank_used[bank.index]
_bank_used.in_use = 0xFFFF

self.update_vfo()

def get_mapping_memories(self, bank):
memories = []
for channel in self._channel_numbers_in_bank(bank):
memories.append(self._radio.get_memory(channel))

return memories

def get_memory_mappings(self, memory):
banks = []
for bank in self.get_mappings():
if memory.number in self._channel_numbers_in_bank(bank):
banks.append(bank)

return banks


def _wipe_memory(mem):
mem.set_raw("\x00" * (mem.size() / 8))
mem.pr_frequency = 0x1d # default PR frequency of 1600 Hz
mem.unknown8b = 1 # This bit must be 1, but its meaning is unknown
mem.rx_mode_auto = 1 # rx auto mode bit defaults to 1


@directory.register
class VX8Radio(yaesu_clone.YaesuCloneModeRadio):
"""Yaesu VX-8"""
BAUD_RATE = 38400
VENDOR = "Yaesu"
MODEL = "VX-8R"

_model = "AH029"
_memsize = 65227
_block_lengths = [10, 65217]
_block_size = 32
_mem_params = (0xC128, # APRS message macros
5, # Number of message macros
0xC178, # APRS2
0xC24A, # APRS beacon metadata address.
40, # Number of beacons stored.
0xC60A, # APRS beacon content address.
194, # Length of beacon data stored.
40) # Number of beacons stored.
_has_vibrate = False
_has_af_dual = True

_SG_RE = re.compile(r"(?P<sign>[-+NESW]?)(?P<d>[\d]+)[\s\.,]*"
"(?P<m>[\d]*)[\s\']*(?P<s>[\d]*)")

_RX_BAUD = ("off", "1200 baud", "9600 baud")
_TX_DELAY = ("100ms", "200ms", "300ms",
"400ms", "500ms", "750ms", "1000ms")
_WIND_UNITS = ("m/s", "mph")
_RAIN_UNITS = ("mm", "inch")
_TEMP_UNITS = ("C", "F")
_ALT_UNITS = ("m", "ft")
_DIST_UNITS = ("km", "mile")
_POS_UNITS = ("dd.mmmm'", "dd mm'ss\"")
_SPEED_UNITS = ("km/h", "knot", "mph")
_TIME_SOURCE = ("manual", "GPS")
_TZ = ("-13:00", "-13:30", "-12:00", "-12:30", "-11:00", "-11:30",
"-10:00", "-10:30", "-09:00", "-09:30", "-08:00", "-08:30",
"-07:00", "-07:30", "-06:00", "-06:30", "-05:00", "-05:30",
"-04:00", "-04:30", "-03:00", "-03:30", "-02:00", "-02:30",
"-01:00", "-01:30", "-00:00", "-00:30", "+01:00", "+01:30",
"+02:00", "+02:30", "+03:00", "+03:30", "+04:00", "+04:30",
"+05:00", "+05:30", "+06:00", "+06:30", "+07:00", "+07:30",
"+08:00", "+08:30", "+09:00", "+09:30", "+10:00", "+10:30",
"+11:00", "+11:30")
_BEACON_TYPE = ("Off", "Interval")
_BEACON_INT = ("15s", "30s", "1m", "2m", "3m", "5m", "10m", "15m",
"30m")
_DIGI_PATHS = ("OFF", "WIDE1-1", "WIDE1-1, WIDE2-1", "Digi Path 4",
"Digi Path 5", "Digi Path 6", "Digi Path 7", "Digi Path 8")
_MSG_GROUP_NAMES = ("Message Group 1", "Message Group 2",
"Message Group 3", "Message Group 4",
"Message Group 5", "Message Group 6",
"Message Group 7", "Message Group 8")
_POSITIONS = ("GPS", "Manual Latitude/Longitude",
"Manual Latitude/Longitude", "P1", "P2", "P3", "P4",
"P5", "P6", "P7", "P8", "P9", "P10")
_FLASH = ("OFF", "ON")
_BEEP_SELECT = ("Off", "Key+Scan", "Key")
_SQUELCH = ["%d" % x for x in range(0, 16)]
_VOLUME = ["%d" % x for x in range(0, 33)]
_OPENING_MESSAGE = ("Off", "DC", "Message", "Normal")
_SCAN_RESUME = ["%.1fs" % (0.5 * x) for x in range(4, 21)] + \
["Busy", "Hold"]
_SCAN_RESTART = ["%.1fs" % (0.1 * x) for x in range(1, 10)] + \
["%.1fs" % (0.5 * x) for x in range(2, 21)]
_LAMP_KEY = ["Key %d sec" % x for x in range(2, 11)] + \
["Continuous", "OFF"]
_LCD_CONTRAST = ["Level %d" % x for x in range(1, 33)]
_LCD_DIMMER = ["Level %d" % x for x in range(1, 5)]
_TOT_TIME = ["Off"] + ["%.1f min" % (0.5 * x) for x in range(1, 21)]
_OFF_ON = ("Off", "On")
_VOL_MODE = ("Normal", "Auto Back")
_DTMF_MODE = ("Manual", "Auto")
_DTMF_SPEED = ("50ms", "100ms")
_DTMF_DELAY = ("50ms", "250ms", "450ms", "750ms", "1000ms")
_MY_SYMBOL = ("/[ Person", "/b Bike", "/> Car", "User selected")

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()
rp.pre_download = _(dedent("""\
1. Turn radio off.
2. Connect cable to DATA jack.
3. Press and hold in the [FW] key while turning the radio on
("CLONE" will appear on the display).
4. <b>After clicking OK</b>, press the [BAND] key to send image."""))
rp.pre_upload = _(dedent("""\
1. Turn radio off.
2. Connect cable to DATA jack.
3. Press and hold in the [FW] key while turning the radio on
("CLONE" will appear on the display).
4. Press the [MODE] key ("-WAIT-" will appear on the LCD)."""))
return rp

def process_mmap(self):
self._memobj = bitwise.parse(MEM_FORMAT % self._mem_params, self._mmap)

def get_features(self):
rf = chirp_common.RadioFeatures()
rf.has_dtcs_polarity = False
rf.valid_modes = list(MODES)
rf.valid_tmodes = list(TMODES)
rf.valid_duplexes = list(DUPLEX)
rf.valid_tuning_steps = list(STEPS)
rf.valid_bands = [(500000, 999900000)]
rf.valid_skips = SKIPS
rf.valid_power_levels = POWER_LEVELS
rf.valid_characters = "".join(CHARSET)
rf.valid_name_length = 16
rf.memory_bounds = (1, 900)
rf.can_odd_split = True
rf.has_ctone = False
rf.has_bank_names = True
rf.has_settings = True
return rf

def get_raw_memory(self, number):
return repr(self._memobj.memory[number-1])

def _checksums(self):
return [yaesu_clone.YaesuChecksum(0x064A, 0x06C8),
yaesu_clone.YaesuChecksum(0x06CA, 0x0748),
yaesu_clone.YaesuChecksum(0x074A, 0x07C8),
yaesu_clone.YaesuChecksum(0x07CA, 0x0848),
yaesu_clone.YaesuChecksum(0x0000, 0xFEC9)]

@staticmethod
def _add_ff_pad(val, length):
return val.ljust(length, "\xFF")[:length]

@classmethod
def _strip_ff_pads(cls, messages):
result = []
for msg_text in messages:
result.append(str(msg_text).rstrip("\xFF"))
return result

def get_memory(self, number):
flag = self._memobj.flag[number-1]
_mem = self._memobj.memory[number-1]

mem = chirp_common.Memory()
mem.number = number
if not flag.used:
mem.empty = True
if not flag.valid:
mem.empty = True
return mem
mem.freq = chirp_common.fix_rounded_step(int(_mem.freq) * 1000)
mem.offset = int(_mem.offset) * 1000
mem.rtone = mem.ctone = chirp_common.TONES[_mem.tone]
mem.tmode = TMODES[_mem.tone_mode]
mem.duplex = DUPLEX[_mem.duplex]
if mem.duplex == "split":
mem.offset = chirp_common.fix_rounded_step(mem.offset)
if _mem.mode == "FM" and _mem.half_deviation == 1:
mem.mode = "NFM"
else:
mem.mode = MODES[_mem.mode]
mem.dtcs = chirp_common.DTCS_CODES[_mem.dcs]
mem.tuning_step = STEPS[_mem.tune_step]
mem.power = POWER_LEVELS[3 - _mem.power]
mem.skip = flag.pskip and "P" or flag.skip and "S" or ""

charset = ''.join(CHARSET).ljust(256, '.')
mem.name = str(_mem.label).rstrip("\xFF").translate(charset)

return mem

def _debank(self, mem):
bm = self.get_bank_model()
for bank in bm.get_memory_mappings(mem):
bm.remove_memory_from_mapping(mem, bank)

def set_memory(self, mem):
_mem = self._memobj.memory[mem.number-1]
flag = self._memobj.flag[mem.number-1]

self._debank(mem)

if not mem.empty and not flag.valid:
_wipe_memory(_mem)

if mem.empty and flag.valid and not flag.used:
flag.valid = False
return
flag.used = not mem.empty
flag.valid = flag.used

if mem.empty:
return

if mem.freq < 30000000 or \
(mem.freq > 88000000 and mem.freq < 108000000) or \
mem.freq > 580000000:
flag.nosubvfo = True # Masked from VFO B
else:
flag.nosubvfo = False # Available in both VFOs

_mem.freq = int(mem.freq / 1000)
_mem.offset = int(mem.offset / 1000)
_mem.tone = chirp_common.TONES.index(mem.rtone)
_mem.tone_mode = TMODES.index(mem.tmode)
_mem.duplex = DUPLEX.index(mem.duplex)
if mem.mode == "NFM":
_mem.mode = 0 # Yaesu's NFM, i.e. regular FM
_mem.half_deviation = 1 # but half bandwidth
else:
_mem.mode = MODES.index(mem.mode)
_mem.half_deviation = 0
_mem.mode = MODES.index(mem.mode)
_mem.dcs = chirp_common.DTCS_CODES.index(mem.dtcs)
_mem.tune_step = STEPS.index(mem.tuning_step)
if mem.power:
_mem.power = 3 - POWER_LEVELS.index(mem.power)
else:
_mem.power = 0

label = "".join([chr(CHARSET.index(x)) for x in mem.name.rstrip()])
_mem.label = self._add_ff_pad(label, 16)
# We only speak english here in chirpville
_mem.charsetbits[0] = 0x00
_mem.charsetbits[1] = 0x00

flag.skip = mem.skip == "S"
flag.pskip = mem.skip == "P"

def get_bank_model(self):
return VX8BankModel(self)

@classmethod
def _digi_path_to_str(cls, path):
path_cmp = []
for entry in path.entry:
callsign = str(entry.callsign).rstrip("\xFF")
if not callsign:
break
path_cmp.append("%s-%d" % (callsign, entry.ssid))
return ",".join(path_cmp)

@staticmethod
def _latlong_sanity(sign, l_d, l_m, l_s, is_lat):
if sign not in (0, 1):
sign = 0
if is_lat:
d_max = 90
else:
d_max = 180
if l_d < 0 or l_d > d_max:
l_d = 0
l_m = 0
l_s = 0
if l_m < 0 or l_m > 60:
l_m = 0
l_s = 0
if l_s < 0 or l_s > 60:
l_s = 0
return sign, l_d, l_m, l_s

@classmethod
def _latlong_to_str(cls, sign, l_d, l_m, l_s, is_lat, to_sexigesimal=True):
sign, l_d, l_m, l_s = cls._latlong_sanity(sign, l_d, l_m, l_s, is_lat)
mult = sign and -1 or 1
if to_sexigesimal:
return "%d,%d'%d\"" % (mult * l_d, l_m, l_s)
return "%0.5f" % (mult * l_d + (l_m / 60.0) + (l_s / (60.0 * 60.0)))

@classmethod
def _str_to_latlong(cls, lat_long, is_lat):
sign = 0
result = [0, 0, 0]

lat_long = lat_long.strip()

if not lat_long:
return 1, 0, 0, 0

try:
# DD.MMMMM is the simple case, try that first.
val = float(lat_long)
if val < 0:
sign = 1
val = abs(val)
result[0] = int(val)
result[1] = int(val * 60) % 60
result[2] = int(val * 3600) % 60
except ValueError:
# Try DD MM'SS" if DD.MMMMM failed.
match = cls._SG_RE.match(lat_long.strip())
if match:
if match.group("sign") and (match.group("sign") in "SE-"):
sign = 1
else:
sign = 0
if match.group("d"):
result[0] = int(match.group("d"))
if match.group("m"):
result[1] = int(match.group("m"))
if match.group("s"):
result[2] = int(match.group("s"))
elif len(lat_long) > 4:
raise Exception("Lat/Long should be DD MM'SS\" or DD.MMMMM")

return cls._latlong_sanity(sign, result[0], result[1], result[2],
is_lat)

def _get_aprs_general_settings(self):
menu = RadioSettingGroup("aprs_general", "APRS General")
aprs = self._memobj.aprs
aprs2 = self._memobj.aprs2

val = RadioSettingValueString(
0, 6, str(aprs.my_callsign.callsign).rstrip("\xFF"))
rs = RadioSetting("aprs.my_callsign.callsign", "My Callsign", val)
rs.set_apply_callback(self.apply_callsign, aprs.my_callsign)
menu.append(rs)

val = RadioSettingValueList(
chirp_common.APRS_SSID,
chirp_common.APRS_SSID[aprs.my_callsign.ssid])
rs = RadioSetting("aprs.my_callsign.ssid", "My SSID", val)
menu.append(rs)

val = RadioSettingValueList(self._MY_SYMBOL,
self._MY_SYMBOL[aprs2.selected_my_symbol])
rs = RadioSetting("aprs2.selected_my_symbol", "My Symbol", val)
menu.append(rs)

symbols = list(chirp_common.APRS_SYMBOLS)
selected = aprs.custom_symbol
if aprs.custom_symbol >= len(chirp_common.APRS_SYMBOLS):
symbols.append("%d" % aprs.custom_symbol)
selected = len(symbols) - 1
val = RadioSettingValueList(symbols, symbols[selected])
rs = RadioSetting("aprs.custom_symbol_text", "User Selected Symbol",
val)
rs.set_apply_callback(self.apply_custom_symbol, aprs)
menu.append(rs)

val = RadioSettingValueList(
chirp_common.APRS_POSITION_COMMENT,
chirp_common.APRS_POSITION_COMMENT[aprs.selected_position_comment])
rs = RadioSetting("aprs.selected_position_comment", "Position Comment",
val)
menu.append(rs)

latitude = self._latlong_to_str(aprs.latitude_sign,
aprs.latitude_degree,
aprs.latitude_minute,
aprs.latitude_second,
True, aprs.aprs_units_position_mmss)
longitude = self._latlong_to_str(aprs.longitude_sign,
aprs.longitude_degree,
aprs.longitude_minute,
aprs.longitude_second,
False, aprs.aprs_units_position_mmss)

# TODO: Rebuild this when aprs_units_position_mmss changes.
# TODO: Rebuild this when latitude/longitude change.
# TODO: Add saved positions p1 - p10 to memory map.
position_str = list(self._POSITIONS)
# position_str[1] = "%s %s" % (latitude, longitude)
# position_str[2] = "%s %s" % (latitude, longitude)
val = RadioSettingValueList(position_str,
position_str[aprs.selected_position])
rs = RadioSetting("aprs.selected_position", "My Position", val)
menu.append(rs)

val = RadioSettingValueString(0, 10, latitude)
rs = RadioSetting("latitude", "Manual Latitude", val)
rs.set_apply_callback(self.apply_lat_long, aprs)
menu.append(rs)

val = RadioSettingValueString(0, 11, longitude)
rs = RadioSetting("longitude", "Manual Longitude", val)
rs.set_apply_callback(self.apply_lat_long, aprs)
menu.append(rs)

val = RadioSettingValueList(
self._TIME_SOURCE, self._TIME_SOURCE[aprs.set_time_manually])
rs = RadioSetting("aprs.set_time_manually", "Time Source", val)
menu.append(rs)

val = RadioSettingValueList(self._TZ, self._TZ[aprs.timezone])
rs = RadioSetting("aprs.timezone", "Timezone", val)
menu.append(rs)

val = RadioSettingValueList(
self._SPEED_UNITS, self._SPEED_UNITS[aprs.aprs_units_speed])
rs = RadioSetting("aprs.aprs_units_speed", "APRS Speed Units", val)
menu.append(rs)

val = RadioSettingValueList(
self._SPEED_UNITS, self._SPEED_UNITS[aprs.gps_units_speed])
rs = RadioSetting("aprs.gps_units_speed", "GPS Speed Units", val)
menu.append(rs)

val = RadioSettingValueList(
self._ALT_UNITS, self._ALT_UNITS[aprs.aprs_units_altitude_ft])
rs = RadioSetting("aprs.aprs_units_altitude_ft", "APRS Altitude Units",
val)
menu.append(rs)

val = RadioSettingValueList(
self._ALT_UNITS, self._ALT_UNITS[aprs.gps_units_altitude_ft])
rs = RadioSetting("aprs.gps_units_altitude_ft", "GPS Altitude Units",
val)
menu.append(rs)

val = RadioSettingValueList(
self._POS_UNITS,
self._POS_UNITS[aprs.aprs_units_position_mmss])
rs = RadioSetting("aprs.aprs_units_position_mmss",
"APRS Position Format", val)
menu.append(rs)

val = RadioSettingValueList(
self._POS_UNITS, self._POS_UNITS[aprs.gps_units_position_sss])
rs = RadioSetting("aprs.gps_units_position_sss",
"GPS Position Format", val)
menu.append(rs)

val = RadioSettingValueList(
self._DIST_UNITS,
self._DIST_UNITS[aprs.aprs_units_distance_m])
rs = RadioSetting("aprs.aprs_units_distance_m", "APRS Distance Units",
val)
menu.append(rs)

val = RadioSettingValueList(
self._WIND_UNITS, self._WIND_UNITS[aprs.aprs_units_wind_mph])
rs = RadioSetting("aprs.aprs_units_wind_mph", "APRS Wind Speed Units",
val)
menu.append(rs)

val = RadioSettingValueList(
self._RAIN_UNITS, self._RAIN_UNITS[aprs.aprs_units_rain_inch])
rs = RadioSetting("aprs.aprs_units_rain_inch", "APRS Rain Units", val)
menu.append(rs)

val = RadioSettingValueList(
self._TEMP_UNITS,
self._TEMP_UNITS[aprs.aprs_units_temperature_f])
rs = RadioSetting("aprs.aprs_units_temperature_f",
"APRS Temperature Units", val)
menu.append(rs)

return menu

def _get_aprs_rx_settings(self):
menu = RadioSettingGroup("aprs_rx", "APRS Receive")
aprs = self._memobj.aprs
aprs2 = self._memobj.aprs2

val = RadioSettingValueList(self._RX_BAUD, self._RX_BAUD[aprs.rx_baud])
rs = RadioSetting("aprs.rx_baud", "Modem RX", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.aprs_mute)
rs = RadioSetting("aprs.aprs_mute", "APRS Mute", val)
menu.append(rs)

if self._has_af_dual:
val = RadioSettingValueBoolean(aprs.af_dual)
rs = RadioSetting("aprs.af_dual", "AF Dual", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.ring_msg)
rs = RadioSetting("aprs.ring_msg", "Ring on Message RX", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.ring_beacon)
rs = RadioSetting("aprs.ring_beacon", "Ring on Beacon RX", val)
menu.append(rs)

val = RadioSettingValueList(self._FLASH,
self._FLASH[aprs2.flash_msg])
rs = RadioSetting("aprs2.flash_msg", "Flash on personal message", val)
menu.append(rs)

if self._has_vibrate:
val = RadioSettingValueList(self._FLASH,
self._FLASH[aprs2.vibrate_msg])
rs = RadioSetting("aprs2.vibrate_msg",
"Vibrate on personal message", val)
menu.append(rs)

val = RadioSettingValueList(self._FLASH[:10],
self._FLASH[aprs2.flash_bln])
rs = RadioSetting("aprs2.flash_bln", "Flash on bulletin message", val)
menu.append(rs)

if self._has_vibrate:
val = RadioSettingValueList(self._FLASH[:10],
self._FLASH[aprs2.vibrate_bln])
rs = RadioSetting("aprs2.vibrate_bln",
"Vibrate on bulletin message", val)
menu.append(rs)

val = RadioSettingValueList(self._FLASH[:10],
self._FLASH[aprs2.flash_grp])
rs = RadioSetting("aprs2.flash_grp", "Flash on group message", val)
menu.append(rs)

if self._has_vibrate:
val = RadioSettingValueList(self._FLASH[:10],
self._FLASH[aprs2.vibrate_grp])
rs = RadioSetting("aprs2.vibrate_grp",
"Vibrate on group message", val)
menu.append(rs)

filter_val = [m.padded_string for m in aprs2.msg_group]
filter_val = self._strip_ff_pads(filter_val)
for index, filter_text in enumerate(filter_val):
val = RadioSettingValueString(0, 9, filter_text)
rs = RadioSetting("aprs2.msg_group_%d" % index,
"Message Group %d" % (index + 1), val)
menu.append(rs)
rs.set_apply_callback(self.apply_ff_padded_string,
aprs2.msg_group[index])
# TODO: Use filter_val as the list entries and update it on edit.
val = RadioSettingValueList(
self._MSG_GROUP_NAMES,
self._MSG_GROUP_NAMES[aprs2.selected_msg_group])
rs = RadioSetting("aprs2.selected_msg_group", "Selected Message Group",
val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_mic_e)
rs = RadioSetting("aprs.filter_mic_e", "Receive Mic-E Beacons", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_position)
rs = RadioSetting("aprs.filter_position", "Receive Position Beacons",
val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_weather)
rs = RadioSetting("aprs.filter_weather", "Receive Weather Beacons",
val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_object)
rs = RadioSetting("aprs.filter_object", "Receive Object Beacons", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_item)
rs = RadioSetting("aprs.filter_item", "Receive Item Beacons", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_status)
rs = RadioSetting("aprs.filter_status", "Receive Status Beacons", val)
menu.append(rs)

val = RadioSettingValueBoolean(aprs.filter_other)
rs = RadioSetting("aprs.filter_other", "Receive Other Beacons", val)
menu.append(rs)

return menu

def _get_aprs_tx_settings(self):
menu = RadioSettingGroup("aprs_tx", "APRS Transmit")
aprs = self._memobj.aprs
aprs2 = self._memobj.aprs2

beacon_type = (aprs.tx_smartbeacon << 1) | aprs.tx_interval_beacon
val = RadioSettingValueList(
self._BEACON_TYPE, self._BEACON_TYPE[beacon_type])
rs = RadioSetting("aprs.transmit", "TX Beacons", val)
rs.set_apply_callback(self.apply_beacon_type, aprs)
menu.append(rs)

val = RadioSettingValueList(
self._TX_DELAY, self._TX_DELAY[aprs.tx_delay])
rs = RadioSetting("aprs.tx_delay", "TX Delay", val)
menu.append(rs)

val = RadioSettingValueList(
self._BEACON_INT, self._BEACON_INT[aprs.beacon_interval])
rs = RadioSetting("aprs.beacon_interval", "Beacon Interval", val)
menu.append(rs)

desc = []
status = [m.padded_string for m in self._memobj.aprs_beacon_status_txt]
status = self._strip_ff_pads(status)
for index, msg_text in enumerate(status):
val = RadioSettingValueString(0, 60, msg_text)
desc.append("Beacon Status Text %d" % (index + 1))
rs = RadioSetting("aprs_beacon_status_txt_%d" % index, desc[-1],
val)
rs.set_apply_callback(self.apply_ff_padded_string,
self._memobj.aprs_beacon_status_txt[index])
menu.append(rs)
val = RadioSettingValueList(desc,
desc[aprs.selected_beacon_status_txt])
rs = RadioSetting("aprs.selected_beacon_status_txt",
"Beacon Status Text", val)
menu.append(rs)

message_macro = [m.padded_string for m in self._memobj.aprs_msg_macro]
message_macro = self._strip_ff_pads(message_macro)
for index, msg_text in enumerate(message_macro):
val = RadioSettingValueString(0, 16, msg_text)
rs = RadioSetting("aprs_msg_macro_%d" % index,
"Message Macro %d" % (index + 1), val)
rs.set_apply_callback(self.apply_ff_padded_string,
self._memobj.aprs_msg_macro[index])
menu.append(rs)

path_str = list(self._DIGI_PATHS)

path_str[7] = self._digi_path_to_str(aprs.digi_path_7)
val = RadioSettingValueString(0, 88, path_str[7])
rs = RadioSetting("aprs.digi_path_7", "Digi Path 8 (8 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs.digi_path_7)
menu.append(rs)

# Show friendly messages for empty slots rather than blanks.
# TODO: Rebuild this when digi_path_[34567] change.
# path_str[3] = path_str[3] or self._DIGI_PATHS[3]
# path_str[4] = path_str[4] or self._DIGI_PATHS[4]
# path_str[5] = path_str[5] or self._DIGI_PATHS[5]
# path_str[6] = path_str[6] or self._DIGI_PATHS[6]
# path_str[7] = path_str[7] or self._DIGI_PATHS[7]

path_str[7] = self._DIGI_PATHS[7]
val = RadioSettingValueList(path_str,
path_str[aprs2.selected_digi_path])
rs = RadioSetting("aprs2.selected_digi_path",
"Selected Digi Path", val)
menu.append(rs)

return menu

def _get_dtmf_settings(self):
menu = RadioSettingGroup("dtmf_settings", "DTMF")
dtmf = self._memobj.scan_settings

val = RadioSettingValueList(
self._DTMF_MODE,
self._DTMF_MODE[dtmf.dtmf_mode])
rs = RadioSetting("scan_settings.dtmf_mode", "DTMF Mode", val)
menu.append(rs)

val = RadioSettingValueList(
self._DTMF_SPEED,
self._DTMF_SPEED[dtmf.dtmf_speed])
rs = RadioSetting("scan_settings.dtmf_speed",
"DTMF AutoDial Speed", val)
menu.append(rs)

val = RadioSettingValueList(
self._DTMF_DELAY,
self._DTMF_DELAY[dtmf.dtmf_delay])
rs = RadioSetting("scan_settings.dtmf_delay",
"DTMF AutoDial Delay", val)
menu.append(rs)

for i in range(10):
name = "dtmf_%02d" % i
dtmfsetting = self._memobj.dtmf[i]
dtmfstr = ""
for c in dtmfsetting.memory:
if c == 0xFF:
break
if c < len(VX8_DTMF_CHARS):
dtmfstr += VX8_DTMF_CHARS[c]
dtmfentry = RadioSettingValueString(0, 16, dtmfstr)
dtmfentry.set_charset(VX8_DTMF_CHARS + list("abcd "))
rs = RadioSetting(name, name.upper(), dtmfentry)
rs.set_apply_callback(self.apply_dtmf, i)
menu.append(rs)

return menu

def _get_misc_settings(self):
menu = RadioSettingGroup("misc_settings", "Misc")
scan_settings = self._memobj.scan_settings

val = RadioSettingValueList(
self._LCD_DIMMER,
self._LCD_DIMMER[scan_settings.lcd_dimmer])
rs = RadioSetting("scan_settings.lcd_dimmer", "LCD Dimmer", val)
menu.append(rs)

val = RadioSettingValueList(
self._LCD_CONTRAST,
self._LCD_CONTRAST[scan_settings.lcd_contrast - 1])
rs = RadioSetting("scan_settings.lcd_contrast", "LCD Contrast",
val)
rs.set_apply_callback(self.apply_lcd_contrast, scan_settings)
menu.append(rs)

val = RadioSettingValueList(
self._LAMP_KEY,
self._LAMP_KEY[scan_settings.lamp])
rs = RadioSetting("scan_settings.lamp", "Lamp", val)
menu.append(rs)

beep_select = self._memobj.beep_select

val = RadioSettingValueList(
self._BEEP_SELECT,
self._BEEP_SELECT[beep_select.beep])
rs = RadioSetting("beep_select.beep", "Beep Select", val)
menu.append(rs)

opening_message = self._memobj.opening_message

val = RadioSettingValueList(
self._OPENING_MESSAGE,
self._OPENING_MESSAGE[opening_message.flag])
rs = RadioSetting("opening_message.flag", "Opening Msg Mode",
val)
menu.append(rs)

msg = ""
for i in opening_message.message.padded_yaesu:
if i == 0xFF:
break
msg += CHARSET[i & 0x7F]
val = RadioSettingValueString(0, 16, msg)
rs = RadioSetting("opening_message.message.padded_yaesu",
"Opening Message", val)
rs.set_apply_callback(self.apply_ff_padded_yaesu,
opening_message.message)
menu.append(rs)

return menu

def _get_scan_settings(self):
menu = RadioSettingGroup("scan_settings", "Scan")
scan_settings = self._memobj.scan_settings

val = RadioSettingValueList(
self._VOL_MODE,
self._VOL_MODE[scan_settings.vol_mode])
rs = RadioSetting("scan_settings.vol_mode", "Volume Mode", val)
menu.append(rs)

vfoa = self._memobj.vfo_info[0]
val = RadioSettingValueList(
self._VOLUME,
self._VOLUME[vfoa.volume])
rs = RadioSetting("vfo_info[0].volume", "VFO A Volume", val)
rs.set_apply_callback(self.apply_volume, 0)
menu.append(rs)

vfob = self._memobj.vfo_info[1]
val = RadioSettingValueList(
self._VOLUME,
self._VOLUME[vfob.volume])
rs = RadioSetting("vfo_info[1].volume", "VFO B Volume", val)
rs.set_apply_callback(self.apply_volume, 1)
menu.append(rs)

squelch = self._memobj.squelch
val = RadioSettingValueList(
self._SQUELCH,
self._SQUELCH[squelch.vfo_a])
rs = RadioSetting("squelch.vfo_a", "VFO A Squelch", val)
menu.append(rs)

val = RadioSettingValueList(
self._SQUELCH,
self._SQUELCH[squelch.vfo_b])
rs = RadioSetting("squelch.vfo_b", "VFO B Squelch", val)
menu.append(rs)

val = RadioSettingValueList(
self._SCAN_RESTART,
self._SCAN_RESTART[scan_settings.scan_restart])
rs = RadioSetting("scan_settings.scan_restart", "Scan Restart", val)
menu.append(rs)

val = RadioSettingValueList(
self._SCAN_RESUME,
self._SCAN_RESUME[scan_settings.scan_resume])
rs = RadioSetting("scan_settings.scan_resume", "Scan Resume", val)
menu.append(rs)

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.busy_led])
rs = RadioSetting("scan_settings.busy_led", "Busy LED", val)
menu.append(rs)

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.scan_lamp])
rs = RadioSetting("scan_settings.scan_lamp", "Scan Lamp", val)
menu.append(rs)

val = RadioSettingValueList(
self._TOT_TIME,
self._TOT_TIME[scan_settings.tot])
rs = RadioSetting("scan_settings.tot", "Transmit Timeout (TOT)", val)
menu.append(rs)

return menu

def _get_settings(self):
top = RadioSettings(self._get_aprs_general_settings(),
self._get_aprs_rx_settings(),
self._get_aprs_tx_settings(),
self._get_dtmf_settings(),
self._get_misc_settings(),
self._get_scan_settings())
return top

def get_settings(self):
try:
return self._get_settings()
except:
import traceback
LOG.error("Failed to parse settings: %s", traceback.format_exc())
return None

@staticmethod
def apply_custom_symbol(setting, obj):
# Ensure new value falls within known bounds, otherwise leave it as
# it's a custom value from the radio that's outside our list.
if setting.value.get_value() in chirp_common.APRS_SYMBOLS:
setattr(obj, "custom_symbol",
chirp_common.APRS_SYMBOLS.index(setting.value.get_value()))

@classmethod
def _apply_callsign(cls, callsign, obj, default_ssid=None):
ssid = default_ssid
dash_index = callsign.find("-")
if dash_index >= 0:
ssid = callsign[dash_index + 1:]
callsign = callsign[:dash_index]
try:
ssid = int(ssid) % 16
except ValueError:
ssid = default_ssid
setattr(obj, "callsign", cls._add_ff_pad(callsign, 6))
if ssid is not None:
setattr(obj, "ssid", ssid)

def apply_beacon_type(cls, setting, obj):
beacon_type = str(setting.value.get_value())
beacon_index = cls._BEACON_TYPE.index(beacon_type)
tx_smartbeacon = beacon_index >> 1
tx_interval_beacon = beacon_index & 1
if tx_interval_beacon:
setattr(obj, "tx_interval_beacon", 1)
setattr(obj, "tx_smartbeacon", 0)
elif tx_smartbeacon:
setattr(obj, "tx_interval_beacon", 0)
setattr(obj, "tx_smartbeacon", 1)
else:
setattr(obj, "tx_interval_beacon", 0)
setattr(obj, "tx_smartbeacon", 0)

@classmethod
def apply_callsign(cls, setting, obj, default_ssid=None):
# Uppercase, strip SSID then FF pad to max string length.
callsign = setting.value.get_value().upper()
cls._apply_callsign(callsign, obj, default_ssid)

def apply_digi_path(self, setting, obj):
# Parse and map to aprs.digi_path_4_7[0-3] or aprs.digi_path_8
# and FF terminate.
path = str(setting.value.get_value())
callsigns = [c.strip() for c in path.split(",")]
for index in range(len(obj.entry)):
try:
self._apply_callsign(callsigns[index], obj.entry[index], 0)
except IndexError:
self._apply_callsign("", obj.entry[index], 0)
if len(callsigns) > len(obj.entry):
raise Exception("This path only supports %d entries" % (index + 1))

@classmethod
def apply_ff_padded_string(cls, setting, obj):
# FF pad.
val = setting.value.get_value()
max_len = getattr(obj, "padded_string").size() / 8
val = str(val).rstrip()
setattr(obj, "padded_string", cls._add_ff_pad(val, max_len))

@classmethod
def apply_lat_long(cls, setting, obj):
name = setting.get_name()
is_latitude = name.endswith("latitude")
lat_long = setting.value.get_value().strip()
sign, l_d, l_m, l_s = cls._str_to_latlong(lat_long, is_latitude)
LOG.debug("%s: %d %d %d %d" % (name, sign, l_d, l_m, l_s))
setattr(obj, "%s_sign" % name, sign)
setattr(obj, "%s_degree" % name, l_d)
setattr(obj, "%s_minute" % name, l_m)
setattr(obj, "%s_second" % name, l_s)

def set_settings(self, settings):
_mem = self._memobj
for element in settings:
if not isinstance(element, RadioSetting):
self.set_settings(element)
continue
if not element.changed():
continue
try:
if element.has_apply_callback():
LOG.debug("Using apply callback")
try:
element.run_apply_callback()
except NotImplementedError as e:
LOG.error("vx8.set_settings: %s", e)
continue

# Find the object containing setting.
obj = _mem
bits = element.get_name().split(".")
setting = bits[-1]
for name in bits[:-1]:
if name.endswith("]"):
name, index = name.split("[")
index = int(index[:-1])
obj = getattr(obj, name)[index]
else:
obj = getattr(obj, name)

try:
old_val = getattr(obj, setting)
LOG.debug("Setting %s(%r) <= %s" % (
element.get_name(), old_val, element.value))
setattr(obj, setting, element.value)
except AttributeError as e:
LOG.error("Setting %s is not in the memory map: %s" %
(element.get_name(), e))
except Exception, e:
LOG.debug(element.get_name())
raise

def apply_ff_padded_yaesu(cls, setting, obj):
# FF pad yaesus custom string format.
rawval = setting.value.get_value()
max_len = getattr(obj, "padded_yaesu").size() / 8
rawval = str(rawval).rstrip()
val = [CHARSET.index(x) for x in rawval]
for x in range(len(val), max_len):
val.append(0xFF)
obj.padded_yaesu = val

def apply_volume(cls, setting, vfo):
val = setting.value.get_value()
cls._memobj.vfo_info[(vfo*2)].volume = val
cls._memobj.vfo_info[(vfo*2)+1].volume = val

def apply_lcd_contrast(cls, setting, obj):
rawval = setting.value.get_value()
val = cls._LCD_CONTRAST.index(rawval) + 1
obj.lcd_contrast = val

def apply_dtmf(cls, setting, i):
rawval = setting.value.get_value().upper().rstrip()
val = [VX8_DTMF_CHARS.index(x) for x in rawval]
for x in range(len(val), 16):
val.append(0xFF)
cls._memobj.dtmf[i].memory = val


@directory.register
class VX8DRadio(VX8Radio):
"""Yaesu VX-8DR"""
MODEL = "VX-8DR"
_model = "AH29D"
_mem_params = (0xC128, # APRS message macros
7, # Number of message macros
0xC198, # APRS2
0xC24A, # APRS beacon metadata address.
50, # Number of beacons stored.
0xC6FA, # APRS beacon content address.
146, # Length of beacon data stored.
50) # Number of beacons stored.

_TX_DELAY = ("100ms", "150ms", "200ms", "250ms", "300ms",
"400ms", "500ms", "750ms", "1000ms")
_BEACON_TYPE = ("Off", "Interval", "SmartBeaconing")
_SMARTBEACON_PROFILE = ("Off", "Type 1", "Type 2", "Type 3")
_POSITIONS = ("GPS", "Manual Latitude/Longitude",
"Manual Latitude/Longitude", "P1", "P2", "P3", "P4",
"P5", "P6", "P7", "P8", "P9")
_FLASH = ("OFF", "2 seconds", "4 seconds", "6 seconds", "8 seconds",
"10 seconds", "20 seconds", "30 seconds", "60 seconds",
"CONTINUOUS", "every 2 seconds", "every 3 seconds",
"every 4 seconds", "every 5 seconds", "every 6 seconds",
"every 7 seconds", "every 8 seconds", "every 9 seconds",
"every 10 seconds", "every 20 seconds", "every 30 seconds",
"every 40 seconds", "every 50 seconds", "every minute",
"every 2 minutes", "every 3 minutes", "every 4 minutes",
"every 5 minutes", "every 6 minutes", "every 7 minutes",
"every 8 minutes", "every 9 minutes", "every 10 minutes")
_LCD_CONTRAST = ["Level %d" % x for x in range(1, 16)]
_MY_SYMBOL = ("/[ Person", "/b Bike", "/> Car", "User selected")

def _get_aprs_tx_settings(self):
menu = RadioSettingGroup("aprs_tx", "APRS Transmit")
aprs = self._memobj.aprs
aprs2 = self._memobj.aprs2

beacon_type = (aprs.tx_smartbeacon << 1) | aprs.tx_interval_beacon
val = RadioSettingValueList(
self._BEACON_TYPE, self._BEACON_TYPE[beacon_type])
rs = RadioSetting("aprs.transmit", "TX Beacons", val)
rs.set_apply_callback(self.apply_beacon_type, aprs)
menu.append(rs)

val = RadioSettingValueList(
self._TX_DELAY, self._TX_DELAY[aprs.tx_delay])
rs = RadioSetting("aprs.tx_delay", "TX Delay", val)
menu.append(rs)

val = RadioSettingValueList(
self._BEACON_INT, self._BEACON_INT[aprs.beacon_interval])
rs = RadioSetting("aprs.beacon_interval", "Beacon Interval", val)
menu.append(rs)

desc = []
status = [m.padded_string for m in self._memobj.aprs_beacon_status_txt]
status = self._strip_ff_pads(status)
for index, msg_text in enumerate(status):
val = RadioSettingValueString(0, 60, msg_text)
desc.append("Beacon Status Text %d" % (index + 1))
rs = RadioSetting("aprs_beacon_status_txt_%d" % index, desc[-1],
val)
rs.set_apply_callback(self.apply_ff_padded_string,
self._memobj.aprs_beacon_status_txt[index])
menu.append(rs)
val = RadioSettingValueList(desc,
desc[aprs.selected_beacon_status_txt])
rs = RadioSetting("aprs.selected_beacon_status_txt",
"Beacon Status Text", val)
menu.append(rs)

message_macro = [m.padded_string for m in self._memobj.aprs_msg_macro]
message_macro = self._strip_ff_pads(message_macro)
for index, msg_text in enumerate(message_macro):
val = RadioSettingValueString(0, 16, msg_text)
rs = RadioSetting("aprs_msg_macro_%d" % index,
"Message Macro %d" % (index + 1), val)
rs.set_apply_callback(self.apply_ff_padded_string,
self._memobj.aprs_msg_macro[index])
menu.append(rs)

path_str = list(self._DIGI_PATHS)
path_str[3] = self._digi_path_to_str(aprs2.digi_path_3_6[0])
val = RadioSettingValueString(0, 22, path_str[3])
rs = RadioSetting("aprs2.digi_path_3", "Digi Path 4 (2 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs2.digi_path_3_6[0])
menu.append(rs)

path_str[4] = self._digi_path_to_str(aprs2.digi_path_3_6[1])
val = RadioSettingValueString(0, 22, path_str[4])
rs = RadioSetting("aprs2.digi_path_4", "Digi Path 5 (2 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs2.digi_path_3_6[1])
menu.append(rs)

path_str[5] = self._digi_path_to_str(aprs2.digi_path_3_6[2])
val = RadioSettingValueString(0, 22, path_str[5])
rs = RadioSetting("aprs2.digi_path_5", "Digi Path 6 (2 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs2.digi_path_3_6[2])
menu.append(rs)

path_str[6] = self._digi_path_to_str(aprs2.digi_path_3_6[3])
val = RadioSettingValueString(0, 22, path_str[6])
rs = RadioSetting("aprs2.digi_path_6", "Digi Path 7 (2 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs2.digi_path_3_6[3])
menu.append(rs)

path_str[7] = self._digi_path_to_str(aprs.digi_path_7)
val = RadioSettingValueString(0, 88, path_str[7])
rs = RadioSetting("aprs.digi_path_7", "Digi Path 8 (8 entries)", val)
rs.set_apply_callback(self.apply_digi_path, aprs.digi_path_7)
menu.append(rs)

# Show friendly messages for empty slots rather than blanks.
# TODO: Rebuild this when digi_path_[34567] change.
# path_str[3] = path_str[3] or self._DIGI_PATHS[3]
# path_str[4] = path_str[4] or self._DIGI_PATHS[4]
# path_str[5] = path_str[5] or self._DIGI_PATHS[5]
# path_str[6] = path_str[6] or self._DIGI_PATHS[6]
# path_str[7] = path_str[7] or self._DIGI_PATHS[7]
path_str[3] = self._DIGI_PATHS[3]
path_str[4] = self._DIGI_PATHS[4]
path_str[5] = self._DIGI_PATHS[5]
path_str[6] = self._DIGI_PATHS[6]
path_str[7] = self._DIGI_PATHS[7]
val = RadioSettingValueList(path_str,
path_str[aprs2.selected_digi_path])
rs = RadioSetting("aprs2.selected_digi_path",
"Selected Digi Path", val)
menu.append(rs)

return menu

def _get_aprs_smartbeacon(self):
menu = RadioSettingGroup("aprs_smartbeacon", "APRS SmartBeacon")
aprs2 = self._memobj.aprs2

val = RadioSettingValueList(
self._SMARTBEACON_PROFILE,
self._SMARTBEACON_PROFILE[aprs2.active_smartbeaconing])
rs = RadioSetting("aprs2.active_smartbeaconing",
"SmartBeacon profile", val)
menu.append(rs)

for profile in range(3):
pfx = "type%d" % (profile + 1)
path = "aprs2.smartbeaconing_profile[%d]" % profile
prof = aprs2.smartbeaconing_profile[profile]

low_val = RadioSettingValueInteger(2, 30, prof.low_speed_mph)
high_val = RadioSettingValueInteger(3, 70, prof.high_speed_mph)
low_val.get_max = lambda: min(30, int(high_val.get_value()) - 1)

rs = RadioSetting("%s.low_speed_mph" % path,
"%s Low Speed (mph)" % pfx, low_val)
menu.append(rs)

rs = RadioSetting("%s.high_speed_mph" % path,
"%s High Speed (mph)" % pfx, high_val)
menu.append(rs)

val = RadioSettingValueInteger(1, 100, prof.slow_rate_min)
rs = RadioSetting("%s.slow_rate_min" % path,
"%s Slow rate (minutes)" % pfx, val)
menu.append(rs)

val = RadioSettingValueInteger(10, 180, prof.fast_rate_sec)
rs = RadioSetting("%s.fast_rate_sec" % path,
"%s Fast rate (seconds)" % pfx, val)
menu.append(rs)

val = RadioSettingValueInteger(5, 90, prof.turn_angle)
rs = RadioSetting("%s.turn_angle" % path,
"%s Turn angle (degrees)" % pfx, val)
menu.append(rs)

val = RadioSettingValueInteger(1, 255, prof.turn_slop)
rs = RadioSetting("%s.turn_slop" % path,
"%s Turn slop" % pfx, val)
menu.append(rs)

val = RadioSettingValueInteger(5, 180, prof.turn_time_sec)
rs = RadioSetting("%s.turn_time_sec" % path,
"%s Turn time (seconds)" % pfx, val)
menu.append(rs)

return menu

def _get_settings(self):
top = RadioSettings(self._get_aprs_general_settings(),
self._get_aprs_rx_settings(),
self._get_aprs_tx_settings(),
self._get_aprs_smartbeacon(),
self._get_dtmf_settings(),
self._get_misc_settings(),
self._get_scan_settings())
return top


@directory.register
class VX8GERadio(VX8DRadio):
"""Yaesu VX-8GE"""
MODEL = "VX-8GE"
_model = "AH041"
_has_vibrate = True
_has_af_dual = False
(5-5/5)
Copyright 2023 CHIRP Software LLC