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Bug #11479 » ft70.py

Dan Smith, 08/15/2024 05:42 PM

 
# Copyright 2010 Dan Smith <dsmith@danplanet.com>
# Copyright 2017 Nicolas Pike <nick@zbm2.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 logging

from chirp.drivers import yaesu_clone
from chirp import chirp_common, directory, bitwise
from chirp import errors
from chirp import memmap
from chirp.settings import RadioSettingGroup, RadioSetting, RadioSettings, \
RadioSettingValueString, RadioSettingValueList, \
InvalidValueError
from chirp import util

import string
LOG = logging.getLogger(__name__)

# Testing

# 37 PAG.ABK Turn the pager answer back Function ON/OFF
# 38 PAG.CDR Specify a personal code (receive)
# 39 PAG.CDT Specify a personal code (transmit)
# 47 RX.MOD Select the receive mode. Auto FM AM

MEM_SETTINGS_FORMAT = """
#seekto 0x047e;
struct {
u8 unknown1;
u8 flag;
u16 unknown2;
struct {
char padded_string[6]; // 36 OPN.MSG Select MSG then key vm to edit it
} message;
} opening_message; // 36 OPN.MSG Select the Opening Message when transceiver is ON. OFF/MSG/DC


// FT-70DE New Model #5329
//
// Communications Mode ? AMS,FM DN,DW TX vs RX?
// Mode not currently correctly stored in memories ? - ALL show as FM in memories
// SKIP test/where stored
// Check storage of steps
// Pager settings ?
// Triple check/ understand _memsize and _block_lengths
// Bank name label name size display 6 store 16? padded with 0xFF same for MYCALL and message
// CHIRP mode DIG not supported - is there a CHIRP Fusion mode? Auto?
// Check character set
// Supported Modes ?
// Supported Bands ?
// rf.has_dtcs_polarity = False - think radio supports DTCS polarity
// rf.memory_bounds = (1, 900) - should this be 0? as zero displays as blank
// RPT offsets (stored per band) not included.
// 59 Display radio firmware version info and Radio ID?
// Front Panel settings power etc?
// Banks and VFO?

// Features Required
// Default AMS and Memory name (in mem extras) to enabled.

// Bugs
// MYCALL and Opening Message errors if not 10 characters
// Values greater than one sometimes stored as whole bytes, these need to be refactored into bit fields
// to prevent accidental overwriting of adjacent values
// Bank Name length not checked on gui input - but first 6 characters are saved correctly.
// Extended characters entered as bank names on radio are corrupted in Chirp

// Missing
// 50 SCV.WTH Set the VFO scan frequency range. BAND / ALL - NOT FOUND
// 49 SCM.WTH Set the memory scan frequency range. ALL / BAND - NOT FOUND

// Radio Questions
// Temp unit C/F not saved by radio, always goes back to C ?
// 44 RF SQL Adjusts the RF Squelch threshold level. OFF / S1 - S9? Default is OFF - Based on RF strength - for AM? How
// is this different from F, Monitor, Dial Squelch?
// Password setting on radio allows letters (DTMF), but letters cannot be entered at the radio's password prompt?
// 49 SCM.WTH Set the memory scan frequency range. ALL / BAND Defaults to ALL Not Band as stated in the manual.

#seekto 0x049a;
struct {
u8 unknown0:4,
squelch:4; // Squelch F, Monitor, Dial Adjust the Squelch level
} squelch_settings;

#seekto 0x04ba;
struct {
u8 unknown:3,
scan_resume:5; // 52 SCN.RSM Configure the scan stop mode settings. 2.0 S - 5.0 S - 10.0 S / BUSY / HOLD
u8 unknown1:3,
dw_resume_interval:5; // 22 DW RSM Configure the scan stop mode settings for Dual Receive. 2.0S-10.0S/BUSY/HOLD
u8 unknown2;
u8 unknown3:3,
apo:5; // 02 APO Set the length of time until the transceiver turns off automatically.
u8 unknown4:6,
gm_ring:2; // 24 GM RNG Select the beep option while receiving digital GM info. OFF/IN RNG/ALWAYS
u8 temp_cf; // Placeholder as not found
} first_settings;

//#seekto 0x04c0;
struct {
u8 unknown1:5,
beep_level:3; // 05 BEP.LVL Beep volume setting LEVEL1 - LEVEL4 - LEVEL7
u8 unknown2:6,
beep_select:2; // 04 BEEP Sets the beep sound function OFF / KEY+SC / KEY
} beep_settings;

#seekto 0x04ce;
struct {
u8 lcd_dimmer; // 14 DIMMER LCD Dimmer
u8 dtmf_delay; // 18 DT DLY DTMF delay
u8 unknown0[3];
u8 unknown1:4,
unknown1_2:4;
u8 lamp; // 28 LAMP Set the duration time of the backlight and keys to be lit
u8 lock; // 30 LOCK Configure the lock mode setting. KEY/DIAL/K+D/PTT/K+P/D+P/ALL
u8 unknown2_1;
u8 mic_gain; // 31 MCGAIN Adjust the microphone gain level
u8 unknown2_3;
u8 dw_interval; // 21 DW INT Set the priority memory ch mon int during Dual RX 0.1S-5.0S-10.0S
u8 ptt_delay; // 42 PTT.DLY Set the PTT delay time. OFF / 20 ms / 50 ms / 100 ms / 200 ms
u8 rx_save; // 48 RX.SAVE Set the battery save time. OFF / 0.2 s - 60.0 s
u8 scan_restart; // 53 SCN.STR Set the scanning restart time. 0.1 s - 2.0 s - 10.0 s
u8 unknown2_5;
u8 unknown2_6;
u8 unknown4[5];
u8 tot; // 56 TOT Set the transmission timeout timer
u8 unknown5[3]; // 26
u8 vfo_mode:1, // 60 VFO.MOD Set freq setting range in the VFO mode by DIAL knob. ALL / BAND
unknown7:1,
scan_lamp:1, // 51 SCN.LMP Set the scan lamp ON or OFF when scanning stops On/Off
unknown8:1,
ars:1, // 45 RPT.ARS Turn the ARS function on/off.
dtmf_speed:1, // 20 DT SPD Set DTMF speed
unknown8_1:1,
dtmf_mode:1; // DTMF Mode set from front panel
u8 busy_led:1, // Not Supported ?
unknown8_2:1,
unknown8_3:1,
bclo:1, // 03 BCLO Turns the busy channel lockout function on/off.
beep_edge:1, // 06 BEP.Edg Sets the beep sound ON or OFF when a band edge is encountered.
unknown8_6:1,
unknown8_7:1,
unknown8_8:1; // 28
u8 unknown9_1:1,
unknown9_2:1,
unknown9_3:1,
unknown9_4:1,
unknown9_5:1,
password:1, // Placeholder location
home_rev:1, // 26 HOME/REV Select the function of the [HOME/REV] key.
moni:1; // 32 Mon/T-Call Select the function of the [MONI/T-CALL] switch.
u8 gm_interval:4, // 30 // 25 GM INT Set tx interval of digital GM information. OFF / NORMAL / LONG
unknown10:4;
u8 unknown11;
u8 unknown12:1,
unknown12_2:1,
unknown12_3:1,
unknown12_4:1,
home_vfo:1, // 27 HOME->VFO Turn transfer VFO to the Home channel ON or OFF.
unknown12_6:1,
unknown12_7:1,
dw_rt:1; // 32 // 23 DW RVT Turn "Priority Channel Revert" feature ON or OFF during Dual Rx.
u8 unknown33;
u8 unknown34;
u8 unknown35;
u8 unknown36;
u8 unknown37;
u8 unknown38;
u8 unknown39;
u8 unknown40;
u8 unknown41;
u8 unknown42;
u8 unknown43;
u8 unknown44;
u8 unknown45;
u8 prog_key1; // P1 Set Mode Items to the Programmable Key
u8 prog_key2; // P2 Set Mode Items to the Programmable Key
} scan_settings;

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

#seekto 0x064b;
struct {
u8 unknown1:1,
unknown2:1,
unknown3:1,
unknown4:1,
vfo_scan_width:1, // Placeholder as not found - 50 SCV.WTH Set the VFO scan frequency range. BAND / ALL
memory_scan_width:1, // Placeholder as not found - 49 SCM.WTH Set the memory scan frequency range. ALL / BAND
unknown7:1,
unknown8:1;
} scan_settings_1;

#seekto 0x06B6;
struct {
u8 unknown1:3,
volume:5; // # VOL and Dial Adjust the volume level
} scan_settings_2;

//#seekto 0x0690; // Memory or VFO Settings Map?
//struct {
//u8 unknown[48]; // Array cannot be 64 elements!
//u8 unknown1[16]; // Exception: Not implemented for chirp.bitwise.structDataElement
//} vfo_info_1;

//#seekto 0x0710; // Backup Memory or VFO Settings Map?
//struct {
//u8 unknown[48];
//u8 unknown1[16];
//} vfo_backup_info_1;

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

#seekto 0x0EFE;
struct {
u8 unknown[2];
u8 name[6];
u8 unknown1[10];
} bank_info[24];

#seekto 0x154a;
struct {
u16 channel[100];
} bank_members[24];
"""

MEM_SETTINGS_FORMAT_HI = """
#seekto 0xCF30;
struct {
u8 unknown0;
u8 unknown1;
u8 unknown2;
u8 unknown3;
u8 unknown4;
u8 unknown5;
u8 unknown6;
u8 digital_popup; // 15 DIG.POP Call sign display pop up time
} digital_settings_more;

#seekto 0xCF7C;
struct {
u8 unknown0:6,
ams_tx_mode:2; // AMS TX Mode Short Press AMS button AMS TX Mode
u8 unknown1;
u8 unknown2:7,
standby_beep:1; // 07 BEP.STB Standby Beep in the digital C4FM mode. On/Off
u8 unknown3;
u8 unknown4:6,
gm_ring:2; // 24 GM RNG Select beep option while rx digital GM info. OFF/IN RNG/ALWAYS
u8 unknown5;
u8 rx_dg_id; // RX DG-ID Long Press Mode Key, Mode Key to select, Dial
u8 tx_dg_id; // TX DG-ID Long Press Mode Key, Dial
u8 unknown6:7,
vw_mode:1; // 16 DIG VW Turn the VW mode selection ON or OFF
u8 unknown7;
} digital_settings;

// ^^^ All above referenced U8's have been refactored to minimum number of bits.

"""

MEM_FORMAT = """
//#seekto 0x280A;
struct {
u8 nosubvfo:1,
unknown:3,
pskip:1, // PSkip (Select?)
skip:1, // Skip memory during scan
used:1, // Memory used
valid:1; // Always 1?
} flag[%d];

#seekto 0x2D4A;
struct { // 32 Bytes per memory entry
u8 display_tag:1, // 0 Display Freq, 1 Display Name
unknown0:1, // Mode if AMS not selected????????
deviation:1, // 0 Full deviation (Wide), 1 Half deviation (Narrow)
clock_shift:1, // 0 None, 1 CPU clock shifted
unknown1:4; // 1
u8 mode:2, // FM,AM,WFM only? - check
duplex:2, // Works
tune_step:4; // Works - check all steps? 7 = Auto // 1
bbcd freq[3]; // Works // 3
u8 power:2, // Works
unknown2:1, // 0 FM, 1 Digital - If AMS off
ams:1, // 0 AMS off, 1 AMS on ?
tone_mode:4; // Works // 1
u8 charsetbits[2]; // 2
char label[6]; // Works - Can only input 6 on screen // 6
char unknown7[10]; // Rest of label ??? // 10
bbcd offset[3]; // Works // 3
u8 unknown5:2,
tone:6; // Works // 1
u8 unknown6:1,
dcs:7; // Works // 1
u8 unknown9;
u8 ams_on_dn_vw_fm:2, // AMS DN, AMS VW, AMS FM
unknown8_3:1,
unknown8_4:1,
smeter:4;
u8 unknown10:2,
att:1,
auto_step:1,
auto_mode:1,
unknown11:2,
bell:1;
} memory[%d]; // DN, VW, FM, AM
// AMS DN, AMS VW, AMS FM
"""

MEM_CALLSIGN_FORMAT = """
#seekto 0x0ced0;
struct {
char callsign[10]; // 63 MYCALL Set the call sign. (up to 10 characters)
u16 charset; // character set ID
} my_call;
"""

MEM_CHECKSUM_FORMAT = """
#seekto 0xFECA;
u8 checksum;
"""

TMODES = ["", "Tone", "TSQL", "DTCS"]
DUPLEX = ["", "-", "+", "split"]

MODES = ["FM", "AM", "NFM"]

STEPS = [0, 5, 6.25, 10, 12.5, 15, 20, 25, 50, 100] # 0 = auto
RFSQUELCH = ["OFF", "S1", "S2", "S3", "S4", "S5", "S6", "S7", "S8"]

SKIPS = ["", "S", "P"]
FT70_DTMF_CHARS = list("0123456789ABCDEF-")

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("Mid", watts=2.00),
chirp_common.PowerLevel("Low", watts=.50)]


class FT70Bank(chirp_common.NamedBank):
"""A FT70 bank"""

def get_name(self):
_bank = self._model._radio._memobj.bank_info[self.index]
name = ""
for i in _bank.name:
if i == 0xff:
break
name += chr(i & 0xFF)
return name.rstrip()

def set_name(self, name):
_bank = self._model._radio._memobj.bank_info[self.index]
_bank.name = [ord(x) for x in name.ljust(6, chr(0xFF))[:6]]


class FT70BankModel(chirp_common.BankModel):
"""A FT70 bank model"""

def __init__(self, radio, name='Banks'):
super(FT70BankModel, self).__init__(radio, name)

_banks = self._radio._memobj.bank_info
self._bank_mappings = []
for index, _bank in enumerate(_banks):
bank = FT70Bank(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_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

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

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


@directory.register
class FT70Radio(yaesu_clone.YaesuCloneModeRadio):
"""Yaesu FT-70DE"""
BAUD_RATE = 38400
VENDOR = "Yaesu"
MODEL = "FT-70D"
FORMATS = [directory.register_format('FT-70D ADMS-10', '*.ft70d')]

_model = b"AH51G"
_adms_ext = '.ft70d'

_memsize = 65227 # 65227 read from dump
_block_lengths = [10, 65217]
_block_size = 32
_mem_params = (900, # size of memories array
900, # size of flags array
)

_has_vibrate = False
_has_af_dual = True

_BEEP_SELECT = ("Off", "Key+Scan", "Key")
_OPENING_MESSAGE = ("Off", "DC", "Message")
_MIC_GAIN = ("Level 1", "Level 2", "Level 3", "Level 4", "Level 5", "Level 6", "Level 7", "Level 8", "Level 9")
_AMS_TX_MODE = ("TX Auto", "TX DIGITAL", "TX FM")
_VW_MODE = ("On", "Off")
_DIG_POP_UP = ("Off", "2sec", "4sec", "6sec", "8sec", "10sec", "20sec", "30sec", "60sec", "Continuous")
_STANDBY_BEEP = ("On", "Off")
_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_DIMMER = ["Level %d" % x for x in range(1, 7)]
_TOT_TIME = ["Off"] + ["%.1f min" % (0.5 * x) for x in range(1, 21)]
_OFF_ON = ("Off", "On")
_ON_OFF = ("On", "Off")
_DTMF_MODE = ("Manual", "Auto")
_DTMF_SPEED = ("50ms", "100ms")
_DTMF_DELAY = ("50ms", "250ms", "450ms", "750ms", "1000ms")
_TEMP_CF = ("Centigrade", "Fahrenheit")
_APO_SELECT = ("Off", "0.5H", "1.0H", "1.5H", "2.0H", "2.5H", "3.0H", "3.5H", "4.0H", "4.5H", "5.0H",
"5.5H", "6.0H", "6.5H", "7.0H", "7.5H", "8.0H", "8.5H", "9.0H", "9.5H", "10.0H", "10.5H",
"11.0H", "11.5H", "12.0H")
_MONI_TCALL = ("Monitor", "Tone-CALL")
_HOME_REV = ("Home", "Reverse")
_LOCK = ("KEY", "DIAL", "Key+Dial", "PTT", "Key+PTT", "Dial+PTT", "ALL")
_PTT_DELAY = ("Off", "20 ms", "50 ms", "100 ms", "200 ms")
_BEEP_LEVEL = ("Level 1", "Level 2", "Level 3", "Level 4", "Level 5", "Level 6", "Level 7")
_SET_MODE = ("Level 1", "Level 2", "Level 3", "Level 4", "Level 5", "Level 6", "Level 7")
_RX_SAVE = ("OFF", "0.2s", ".3s", ".4s", ".5s", ".6s", ".7s", ".8s", ".9s", "1.0s", "1.5s",
"2.0s", "2.5s", "3.0s", "3.5s", "4.0s", "4.5s", "5.0s", "5.5s", "6.0s", "6.5s", "7.0s",
"7.5s", "8.0s", "8.5s", "9.0s", "10.0s", "15s", "20s", "25s", "30s", "35s", "40s", "45s", "50s", "55s",
"60s")
_VFO_MODE = ("ALL", "BAND")
_VFO_SCAN_MODE = ("BAND", "ALL")
_MEMORY_SCAN_MODE = ("BAND", "ALL")

_VOLUME = ["Level %d" % x for x in range(0, 32)]
_SQUELCH = ["Level %d" % x for x in range(0, 16)]

_DG_ID = ["%d" % x for x in range(0, 100)]
_GM_RING = ("OFF", "IN RING", "AlWAYS")
_GM_INTERVAL = ("LONG", "NORMAL", "OFF")

_MYCALL_CHR_SET = list(string.ascii_uppercase) + list(string.digits) + ['-', '/']

@classmethod
def match_model(cls, filedata, filename):
if filename.endswith(cls._adms_ext):
return True
else:
return super().match_model(filedata, filename)

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()

rp.pre_download = _(
"1. Turn radio on.\n"
"2. Connect cable to DATA terminal.\n"
"3. Unclip battery.\n"
"4. Press and hold in the [AMS] key and power key while clipping"
" \n in back battery the"
"(\"ADMS\" will appear on the display).\n"
"5. <b>After clicking OK</b>, press the [BAND] key.\n")
rp.pre_upload = _(
"1. Turn radio on.\n"
"2. Connect cable to DATA terminal.\n"
"3. Unclip battery.\n"
"4. Press and hold in the [AMS] key and power key while clipping"
" \n in back battery the "
"(\"ADMS\" will appear on the display).\n"
"5. Press the [MODE] key (\"-WAIT-\" will appear on the LCD).\n"
"<b>Then click OK</b>")
return rp

def process_mmap(self):

mem_format = (MEM_SETTINGS_FORMAT + MEM_FORMAT + MEM_CALLSIGN_FORMAT +
MEM_SETTINGS_FORMAT_HI + MEM_CHECKSUM_FORMAT)

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).upper()
rf.valid_name_length = 6
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 "\n".join([repr(self._memobj.memory[number - 1]),
repr(self._memobj.flag[number - 1])])

def _checksums(self):
return [yaesu_clone.YaesuChecksum(0x0000, 0xFEC9)] # The whole file -2 bytes

@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]
self._get_tmode(mem, _mem)
mem.duplex = DUPLEX[_mem.duplex]
if mem.duplex == "split":
mem.offset = chirp_common.fix_rounded_step(mem.offset)
mem.mode = self._decode_mode(_mem)
mem.dtcs = chirp_common.DTCS_CODES[_mem.dcs]
mem.tuning_step = STEPS[_mem.tune_step]
mem.power = self._decode_power_level(_mem)
mem.skip = flag.pskip and "P" or flag.skip and "S" or ""
mem.name = self._decode_label(_mem)

return mem

def _decode_label(self, mem):
return str(mem.label).rstrip("\xFF")

def _encode_label(self, mem):
return self._add_ff_pad(mem.name.rstrip(), 6)

def _encode_charsetbits(self, mem):
# We only speak English here in chirpville
return [0x00, 0x00]

def _decode_power_level(self, mem): # 3 High 2 Mid 1 Low
return POWER_LEVELS[3 - mem.power]

def _encode_power_level(self, mem):
return 3 - POWER_LEVELS.index(mem.power)

def _decode_mode(self, mem):
mode = MODES[mem.mode]
if mode == 'FM' and int(mem.deviation):
return 'NFM'
else:
return mode

def _encode_mode(self, mem):
mode = mem.mode
if mode == 'NFM':
# Narrow is handled by a separate flag
mode = 'FM'
return MODES.index(mode)

def _get_tmode(self, mem, _mem):
mem.tmode = TMODES[_mem.tone_mode]

def _set_tmode(self, _mem, mem):
_mem.tone_mode = TMODES.index(mem.tmode)

def _set_mode(self, _mem, mem):
_mem.deviation = mem.mode == 'NFM'
_mem.mode = self._encode_mode(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:
self._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)
self._set_tmode(_mem, mem)
_mem.duplex = DUPLEX.index(mem.duplex)
self._set_mode(_mem, mem)
_mem.dcs = chirp_common.DTCS_CODES.index(mem.dtcs)
_mem.tune_step = STEPS.index(mem.tuning_step)

if mem.power:
_mem.power = self._encode_power_level(mem)
else:
_mem.power = 3 # Set 3 - High power as the default

_mem.label = self._encode_label(mem)
charsetbits = self._encode_charsetbits(mem)
_mem.charsetbits[0], _mem.charsetbits[1] = charsetbits

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

_mem.display_tag = 1 # Always Display Memory Name (For the moment..)

@classmethod
def _wipe_memory(cls, mem):
mem.set_raw("\x00" * (mem.size() // 8))
mem.unknown1 = 0x05

def get_bank_model(self):
return FT70BankModel(self)

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

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

for i in range(10):

name = "dtmf_%02d" % (i + 1)
if i == 9:
name = "dtmf_%02d" % 0

dtmfsetting = self._memobj.dtmf[i]
dtmfstr = ""
for c in dtmfsetting.memory:
if c == 0xFF:
break
if c < len(FT70_DTMF_CHARS):
dtmfstr += FT70_DTMF_CHARS[c]
dtmfentry = RadioSettingValueString(0, 16, dtmfstr)
dtmfentry.set_charset(
FT70_DTMF_CHARS + list("abcdef ")) # Allow input in lowercase, space ? validation fails otherwise
rs = RadioSetting(name, name.upper(), dtmfentry)
rs.set_apply_callback(self.apply_dtmf, i)
menu.append(rs)

return menu

def _get_display_settings(self):
menu = RadioSettingGroup("display_settings", "Display")
scan_settings = self._memobj.scan_settings

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

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

return menu

def _get_config_settings(self):
menu = RadioSettingGroup("config_settings", "Config")
scan_settings = self._memobj.scan_settings

# 02 APO Set the length of time until the transceiver turns off automatically.

first_settings = self._memobj.first_settings
val = RadioSettingValueList(
self._APO_SELECT,
self._APO_SELECT[first_settings.apo])
rs = RadioSetting("first_settings.apo", "APO", val)
menu.append(rs)

# 03 BCLO Turns the busy channel lockout function on/off.

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.bclo])
rs = RadioSetting("scan_settings.bclo", "Busy Channel Lockout", val)
menu.append(rs)

# 04 BEEP Sets the beep sound function.

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

# 05 BEP.LVL Beep volume setting LEVEL1 - LEVEL4 - LEVEL7

val = RadioSettingValueList(
self._BEEP_LEVEL,
self._BEEP_LEVEL[beep_settings.beep_level])
rs = RadioSetting("beep_settings", "Beep Level", val)
menu.append(rs)

# 06 BEP.Edg Sets the beep sound ON or OFF when a band edge is encountered.

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.beep_edge])
rs = RadioSetting("scan_settings.beep_edge", "Beep Band Edge", val)
menu.append(rs)

# 10 Bsy.LED Turn the MODE/STATUS Indicator ON or OFF while receiving signals.

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

# 26 HOME/REV Select the function of the [HOME/REV] key.

val = RadioSettingValueList(
self._HOME_REV,
self._HOME_REV[scan_settings.home_rev])
rs = RadioSetting("scan_settings.home_rev", "HOME/REV", val)
menu.append(rs)

# 27 HOME->VFO Turn transfer VFO to the Home channel ON or OFF.

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.home_vfo])
rs = RadioSetting("scan_settings.home_vfo", "Home->VFO", val)
menu.append(rs)

# 30 LOCK Configure the lock mode setting. KEY / DIAL / K+D / PTT / K+P / D+P / ALL

val = RadioSettingValueList(
self._LOCK,
self._LOCK[scan_settings.lock])
rs = RadioSetting("scan_settings.lock", "Lock Mode", val)
menu.append(rs)

# 32 Mon/T-Call Select the function of the [MONI/T-CALL] switch.

val = RadioSettingValueList(
self._MONI_TCALL,
self._MONI_TCALL[scan_settings.moni])
rs = RadioSetting("scan_settings.moni", "MONI/T-CALL", val)
menu.append(rs)

# 42 PTT.DLY Set the PTT delay time. OFF / 20 ms / 50 ms / 100 ms / 200 ms

val = RadioSettingValueList(
self._PTT_DELAY,
self._PTT_DELAY[scan_settings.ptt_delay])
rs = RadioSetting("scan_settings.ptt_delay", "PTT Delay", val)
menu.append(rs)

# 45 RPT.ARS Turn the ARS function on/off.

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.ars])
rs = RadioSetting("scan_settings.ars", "ARS", val)
menu.append(rs)

# 48 RX.SAVE Set the battery save time. OFF / 0.2 s - 60.0 s

val = RadioSettingValueList(
self._RX_SAVE,
self._RX_SAVE[scan_settings.rx_save])
rs = RadioSetting("scan_settings.rx_save", "RX SAVE", val)
menu.append(rs)

# 60 VFO.MOD Set the frequency setting range in the VFO mode by DIAL knob. ALL / BAND

val = RadioSettingValueList(
self._VFO_MODE,
self._VFO_MODE[scan_settings.vfo_mode])
rs = RadioSetting("scan_settings.vfo_mode", "VFO MODE", val)
menu.append(rs)

# 56 TOT Set the timeout timer.

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

# 31 MCGAIN Adjust the microphone gain level

val = RadioSettingValueList(
self._MIC_GAIN,
self._MIC_GAIN[scan_settings.mic_gain])
rs = RadioSetting("scan_settings.mic_gain", "Mic Gain", val)
menu.append(rs)

# VOLUME Adjust the volume level

scan_settings_2 = self._memobj.scan_settings_2
val = RadioSettingValueList(
self._VOLUME,
self._VOLUME[scan_settings_2.volume])
rs = RadioSetting("scan_settings_2.volume", "Volume", val)
menu.append(rs)

# Squelch F key, Hold Monitor, Dial to adjust squelch level

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

return menu

def _get_digital_settings(self):
menu = RadioSettingGroup("digital_settings", "Digital")

# MYCALL
mycall = self._memobj.my_call
mycallstr = str(mycall.callsign).rstrip("\xFF")

mycallentry = RadioSettingValueString(0, 10, mycallstr, False, charset=self._MYCALL_CHR_SET)
rs = RadioSetting('mycall.callsign', 'MYCALL', mycallentry)
rs.set_apply_callback(self.apply_mycall, mycall)
menu.append(rs)

# Short Press AMS button AMS TX Mode

digital_settings = self._memobj.digital_settings
val = RadioSettingValueList(
self._AMS_TX_MODE,
self._AMS_TX_MODE[digital_settings.ams_tx_mode])
rs = RadioSetting("digital_settings.ams_tx_mode", "AMS TX Mode", val)
menu.append(rs)

# 16 DIG VW Turn the VW mode selection ON or OFF.

val = RadioSettingValueList(
self._VW_MODE,
self._VW_MODE[digital_settings.vw_mode])
rs = RadioSetting("digital_settings.vw_mode", "VW Mode", val)
menu.append(rs)

# TX DG-ID Long Press Mode Key, Dial

val = RadioSettingValueList(
self._DG_ID,
self._DG_ID[digital_settings.tx_dg_id])
rs = RadioSetting("digital_settings.tx_dg_id", "TX DG-ID", val)
menu.append(rs)

# RX DG-ID Long Press Mode Key, Mode Key to select, Dial

val = RadioSettingValueList(
self._DG_ID,
self._DG_ID[digital_settings.rx_dg_id])
rs = RadioSetting("digital_settings.rx_dg_id", "RX DG-ID", val)
menu.append(rs)

# 15 DIG.POP Call sign display pop up time

# 00 OFF 00
# 0A 2s 10
# 0B 4s 11
# 0C 6s 12
# 0D 8s 13
# 0E 10s 14
# 0F 20s 15
# 10 30s 16
# 11 60s 17
# 12 CONT 18

digital_settings_more = self._memobj.digital_settings_more

val = RadioSettingValueList(
self._DIG_POP_UP,
self._DIG_POP_UP[
0 if digital_settings_more.digital_popup == 0 else digital_settings_more.digital_popup - 9])

rs = RadioSetting("digital_settings_more.digital_popup", "Digital Popup", val)
rs.set_apply_callback(self.apply_digital_popup, digital_settings_more)
menu.append(rs)

# 07 BEP.STB Standby Beep in the digital C4FM mode. On/Off

val = RadioSettingValueList(
self._STANDBY_BEEP,
self._STANDBY_BEEP[digital_settings.standby_beep])
rs = RadioSetting("digital_settings.standby_beep", "Standby Beep", val)
menu.append(rs)

return menu

def _get_gm_settings(self):
menu = RadioSettingGroup("first_settings", "Group Monitor")

# 24 GM RNG Select the beep option while receiving digital GM information. OFF / IN RNG /ALWAYS

first_settings = self._memobj.first_settings
val = RadioSettingValueList(
self._GM_RING,
self._GM_RING[first_settings.gm_ring])
rs = RadioSetting("first_settings.gm_ring", "GM Ring", val)
menu.append(rs)

# 25 GM INT Set the transmission interval of digital GM information. OFF / NORMAL / LONG

scan_settings = self._memobj.scan_settings
val = RadioSettingValueList(
self._GM_INTERVAL,
self._GM_INTERVAL[scan_settings.gm_interval])
rs = RadioSetting("scan_settings.gm_interval", "GM Interval", val)
menu.append(rs)

return menu

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

# 23 DW RVT Turn the "Priority Channel Revert" feature ON or OFF during Dual Receive.

val = RadioSettingValueList(
self._OFF_ON,
self._OFF_ON[scan_settings.dw_rt])
rs = RadioSetting("scan_settings.dw_rt", "Dual Watch Priority Channel Revert", val)
menu.append(rs)

# 21 DW INT Set the priority memory channel monitoring interval during Dual Receive. 0.1S - 5.0S - 10.0S

val = RadioSettingValueList(
self._SCAN_RESTART,
self._SCAN_RESTART[scan_settings.dw_interval])
rs = RadioSetting("scan_settings.dw_interval", "Dual Watch Interval", val)
menu.append(rs)

# 22 DW RSM Configure the scan stop mode settings for Dual Receive. 2.0S - 10.0 S / BUSY / HOLD

first_settings = self._memobj.first_settings
val = RadioSettingValueList(
self._SCAN_RESUME,
self._SCAN_RESUME[first_settings.dw_resume_interval])
rs = RadioSetting("first_settings.dw_resume_interval", "Dual Watch Resume Interval", val)
menu.append(rs)

# 51 SCN.LMP Set the scan lamp ON or OFF when scanning stops. OFF / ON

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

# 53 SCN.STR Set the scanning restart time. 0.1 S - 2.0 S - 10.0 S

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

# Scan Width Section

# 50 SCV.WTH Set the VFO scan frequency range. BAND / ALL - NOT FOUND!

# Scan Resume Section

# 52 SCN.RSM Configure the scan stop mode settings. 2.0 S - 5.0 S - 10.0 S / BUSY / HOLD

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

return menu

def _get_settings(self):
top = RadioSettings(
self._get_config_settings(),
self._get_digital_settings(),
self._get_display_settings(),
self._get_dtmf_settings(),
self._get_gm_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

@classmethod
def apply_ff_padded_string(cls, setting, obj):
setattr(obj, "padded_string", cls._add_ff_pad(setting.value.get_value().rstrip(), 6))

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(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:
LOG.debug(element.get_name())
raise

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_dtmf(cls, setting, i):
rawval = setting.value.get_value().upper().rstrip()
val = [FT70_DTMF_CHARS.index(x) for x in rawval]
for x in range(len(val), 16):
val.append(0xFF)
cls._memobj.dtmf[i].memory = val

def apply_digital_popup(cls, setting, obj):
rawval = setting.value.get_value()
val = 0 if cls._DIG_POP_UP.index(rawval) == 0 else cls._DIG_POP_UP.index(rawval) + 9
obj.digital_popup = val

def apply_mycall(cls, setting, obj):
cs = setting.value.get_value()
if cs[0] in ('-', '/'):
raise InvalidValueError("First character of call sign can't be - or /: {0:s}".format(cs))
else:
obj.callsign = cls._add_ff_pad(cs.rstrip(), 10)

def load_mmap(self, filename):
if filename.lower().endswith(self._adms_ext):
with open(filename, 'rb') as f:
self._adms_header = f.read(0xED)
if b'=ADMS10, Version=1.0.1.0' not in self._adms_header:
raise errors.ImageDetectFailed(
'Unsupported version found in ADMS file')
LOG.debug('ADMS Header:\n%s',
util.hexprint(self._adms_header))
self._mmap = memmap.MemoryMapBytes(self._model + f.read())
LOG.info('Loaded ADMS file')
self.process_mmap()
else:
chirp_common.CloneModeRadio.load_mmap(self, filename)

def save_mmap(self, filename):
if filename.lower().endswith(self._adms_ext):
if not hasattr(self, '_adms_header'):
raise Exception('Unable to save .img to %s' % self._adms_ext)
with open(filename, 'wb') as f:
f.write(self._adms_header)
f.write(self._mmap.get_packed()[5:])
LOG.info('Wrote file')
else:
chirp_common.CloneModeRadio.save_mmap(self, filename)
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