[chirp_devel] [PATCH] [TH-UV88] New Model: TYT TH-UV88

[Jim Unroe]

Dan,

Please do not apply this patch. A couple of bugs were discovered, so I will
soon be submitting a patch to replace this one.

Thanks,
Jim

On Mon, Nov 16, 2020 at 4:08 PM Jim Unroe via chirp_devel <
chirp_devel at intrepid.danplanet.com> wrote:

> # HG changeset patch
> # User Jim Unroe
> # Date 1605557938 18000
> # Mon Nov 16 15:18:58 2020 -0500
> # Node ID 3fd7ed9a0de01f7897286c9ac274237a45cc7831
> # Parent d5e496f563fdfc9ea89dea5f119357235b82db6f
> [TH-UV88] New Model: TYT TH-UV88
>
> This patch adds support for the TYT TH-UV88
>
> Initial radio protocol decode, channels and memory layout
> by James Berry , Summer 2020
>
> Related to #7817
>
> diff -r d5e496f563fd -r 3fd7ed9a0de0 chirp/drivers/th_uv88.py
> --- /dev/null Thu Jan 01 00:00:00 1970 +0000
> +++ b/chirp/drivers/th_uv88.py Mon Nov 16 15:18:58 2020 -0500
> @@ -0,0 +1,917 @@
> +# Version 1.0 for TYT-UV88
> +# Initial radio protocol decode, channels and memory layout
> +# by James Berry , Summer 2020
> +# Additional configuration and help, Jim Unroe
> +#
> +# 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 2 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/
> <https://cgafehc.r.bh.d.sendibt3.com/tr/cl/QpgoPSH5r0NV4hvIlBzrvEcq4oc9bR7ML-hY3nUq1zcKpuB6PoNuxRO5sk1uyvjY6xNti_2BBKjXrXX0srodnvuyJCJoyWI2-Yvxp23eOYPzyGJ9YGcERkgxudTdeOKMmfxyCn3t2CYacNXoU-fUTH2l-Z72EkLeHxcFk6bRAjewSghXhQJGJrU87xwkmenKqH8swQaX2VY>
> .
> +
> +import time
> +import struct
> +import logging
> +import re
> +import math
> +from chirp import chirp_common, directory, memmap
> +from chirp import bitwise, errors, util
> +from chirp.settings import RadioSettingGroup, RadioSetting, \
> + RadioSettingValueBoolean, RadioSettingValueList, \
> + RadioSettingValueString, RadioSettingValueInteger, \
> + RadioSettingValueFloat, RadioSettings, InvalidValueError
> +from textwrap import dedent
> +
> +LOG = logging.getLogger(__name__)
> +
> +MEM_FORMAT = """
> +struct chns {
> + ul32 rxfreq;
> + ul32 txfreq;
> + ul16 scramble:4
> + rxtone:12; //decode:12
> + ul16 decodeDSCI:1
> + encodeDSCI:1
> + unk1:1
> + unk2:1
> + txtone:12; //encode:12
> + u8 power:2
> + wide:2
> + b_lock:2
> + unk3:2;
> + u8 unk4:3
> + signal:2
> + displayName:1
> + unk5:2;
> + u8 unk6:2
> + pttid:2
> + step:4; // not required
> + u8 name[6];
> +};
> +
> +struct vfo {
> + ul32 rxfreq;
> + ul32 txfreq; // displayed as an offset
> + ul16 scramble:4
> + rxtone:12; //decode:12
> + ul16 decodeDSCI:1
> + encodeDSCI:1
> + unk1:1
> + unk2:1
> + txtone:12; //encode:12
> + u8 power:2
> + wide:2
> + b_lock:2
> + unk3:2;
> + u8 unk4:3
> + signal:2
> + displayName:1
> + unk5:2;
> + u8 unk6:2
> + pttid:2
> + step:4;
> + u8 name[6];
> +};
> +
> +struct chname {
> + u8 extra_name[10];
> +};
> +
> +#seekto 0x0000;
> +struct chns chan_mem[199];
> +
> +#seekto 0x1960;
> +struct chname chan_name[199];
> +
> +#seekto 0x1180;
> +struct {
> + u8 bitmap[26]; // one bit for each channel marked in use
> +} chan_avail;
> +
> +#seekto 0x11A0;
> +struct {
> + u8 bitmap[26]; // one bit for each channel skipped
> +} chan_skip;
> +
> +#seekto 0x1140;
> +struct {
> + u8 autoKeylock:1, // 0x1140 [18] *OFF, On
> + unk_bit6_5:2, //
> + vfomrmode:1, // *VFO, MR
> + unk_bit3_0:4; //
> + u8 unk_1141; // 0x1141
> + u8 unk_1142; // 0x1142
> + u8 unk_bit7_3:5, //
> + ab:1, // * A, B
> + unk_bit1_0:2; //
> +} workmodesettings;
> +
> +#seekto 0x1160;
> +struct {
> + u8 introScreen1[12]; // 0x1160 *Intro Screen Line 1(truncated to 12 alpha
> + // text characters)
> + u8 offFreqVoltage : 3, // 0x116C unknown referred to in code but not on
> + // screen
> + unk_bit4 : 1, //
> + sqlLevel : 4; // [05] *OFF, 1-9
> + u8 beep : 1 // 0x116D [09] *OFF, On
> + callKind : 2, // code says 1750,2100,1000,1450 as options
> + // not on screen
> + introScreen: 2, // [20] *OFF, Voltage, Char String
> + unkstr2: 2, //
> + txChSelect : 1; // [02] *Last CH, Main CH
> + u8 autoPowOff : 3, // 0x116E not on screen? OFF, 30Min, 1HR, 2HR
> + unk : 1, //
> + tot : 4; // [11] *OFF, 30 Second, 60 Second, 90 Second,
> + // ... , 270 Second
> + u8 unk_bit7:1, // 0x116F
> + roger:1, // [14] *OFF, On
> + dailDef:1, // Unknown - 'Volume, Frequency'
> + language:1, // ?Chinese, English
> + unk_bit3:1, //
> + endToneElim:1, // *OFF, Frequency
> + unkCheckBox1:1, //
> + unkCheckBox2:1; //
> + u8 scanResumeTime : 2, // 0x1170 2S, 5S, 10S, 15S (not on screen)
> + disMode : 2, // [33] *Frequency, Channel, Name
> + scanType: 2, // [17] *To, Co, Se
> + ledMode: 2; // [07] *Off, On, Auto
> + u8 unky; // 0x1171
> + u8 str6; // 0x1172 Has flags to do with logging - factory
> + // enabled (bits 16,64,128)
> + u8 unk; // 0x1173
> + u8 swAudio : 1, // 0x1174 [19] *OFF, On
> + radioMoni : 1, // [34]*OFF, On
> + keylock : 1, // *OFF, Auto
> + dualWait : 1, // [06] *OFF, On
> + unk_bit3 : 1, //
> + light : 3; // [08] *1, 2, 3, 4, 5, 6, 7
> + u8 voxSw : 1, // 0x1175 [13] *OFF, On
> + voxDelay: 4, // *0.5S, 1.0S, 1.5S, 2.0S, 2.5S, 3.0S, 3.5S,
> + // 4.0S, 4.5S, 5.0S
> + voxLevel : 3; // [03] *1, 2, 3, 4, 5, 6, 7
> + u8 str9 : 4, // 0x1176
> + saveMode : 2, // [16] *OFF, 1:1, 1:2, 1:4
> + keyMode : 2; // [32] *ALL, PTT, KEY, Key & Side Key
> + u8 unk2; // 0x1177
> + u8 unk3; // 0x1178
> + u8 unk4; // 0x1179
> + u8 name2[6]; // 0x117A unused
> +} basicsettings;
> +
> +#seekto 0x1940;
> +struct {
> + u8 name1[16]; // Intro Screen Line 1 (16 alpha text characters)
> + u8 name2[16]; // Intro Screen Line 2 (16 alpha text characters)
> +} openradioname;
> +
> +"""
> +
> +MEM_SIZE = 0x22A0
> +BLOCK_SIZE = 0x20
> +STIMEOUT = 2
> +BAUDRATE = 57600
> +
> +# Channel power: 3 levels
> +POWER_LEVELS = [chirp_common.PowerLevel("High", watts=5.00),
> + chirp_common.PowerLevel("Mid", watts=2.50),
> + chirp_common.PowerLevel("Low", watts=0.50)]
> +
> +SCRAMBLE_LIST = ["OFF", "1", "2", "3", "4", "5", "6", "7", "8"]
> +B_LOCK_LIST = ["OFF", "Sub", "Carrier"]
> +OPTSIG_LIST = ["OFF", "DTMF", "2TONE", "5TONE"]
> +PTTID_LIST = ["Off", "BOT", "EOT", "Both"]
> +STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 25.0, 50.0, 100.0]
> +LIST_STEPS = [str(x) for x in STEPS]
> +
> +
> +def _clean_buffer(radio):
> + radio.pipe.timeout = 0.005
> + junk = radio.pipe.read(256)
> + radio.pipe.timeout = STIMEOUT
> + if junk:
> + LOG.debug("Got %i bytes of junk before starting" % len(junk))
> +
> +
> +def _rawrecv(radio, amount):
> + """Raw read from the radio device"""
> + data = ""
> + try:
> + data = radio.pipe.read(amount)
> + except Exception:
> + _exit_program_mode(radio)
> + msg = "Generic error reading data from radio; check your cable."
> + raise errors.RadioError(msg)
> +
> + if len(data) != amount:
> + _exit_program_mode(radio)
> + msg = "Error reading from radio: not the amount of data we want."
> + raise errors.RadioError(msg)
> +
> + return data
> +
> +
> +def _rawsend(radio, data):
> + """Raw send to the radio device"""
> + try:
> + radio.pipe.write(data)
> + except Exception:
> + raise errors.RadioError("Error sending data to radio")
> +
> +
> +def _make_read_frame(addr, length):
> + frame = "\xFE\xFE\xEE\xEF\xEB"
> + """Pack the info in the header format"""
> + frame += struct.pack(">ih", addr, length)
> +
> + frame += "\xFD"
> + # Return the data
> + return frame
> +
> +
> +def _make_write_frame(addr, length, data=""):
> + frame = "\xFE\xFE\xEE\xEF\xE4"
> +
> + """Pack the info in the header format"""
> + output = struct.pack(">ih", addr, length)
> + # Add the data if set
> + if len(data) != 0:
> + output += data
> +
> + frame += output
> + frame += _calculate_checksum(output)
> +
> + frame += "\xFD"
> + # Return the data
> + return frame
> +
> +
> +def _calculate_checksum(data):
> + num = 0
> + for x in range(0, len(data)):
> + num = (num + ord(data[x])) % 256
> +
> + if num == 0:
> + return chr(0)
> +
> + return chr(256 - num)
> +
> +
> +def _recv(radio, addr, length):
> + """Get data from the radio """
> +
> + data = _rawrecv(radio, length)
> +
> + # DEBUG
> + LOG.info("Response:")
> + LOG.debug(util.hexprint(data))
> +
> + return data
> +
> +
> +def _do_ident(radio):
> + """Put the radio in PROGRAM mode & identify it"""
> + radio.pipe.baudrate = BAUDRATE
> + radio.pipe.parity = "N"
> + radio.pipe.timeout = STIMEOUT
> +
> + # Flush input buffer
> + _clean_buffer(radio)
> +
> + # Ident radio
> + magic = "\xFE\xFE\xEE\xEF\xE0\x55\x56\x38\x38\xFD"
> + _rawsend(radio, magic)
> + ack = _rawrecv(radio, 36)
> +
> + if not ack.startswith("\xFE\xFE\xEF\xEE\xE1\x55\x56\x38\x38"
> + ) or not ack.endswith("\xFD"):
> + _exit_program_mode(radio)
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio did not respond as expected (A)")
> +
> + return True
> +
> +
> +def _exit_program_mode(radio):
> + # This may be the last part of a read
> + magic = "\xFE\xFE\xEE\xEF\xE5\x55\x56\x38\x38\xFD"
> + _rawsend(radio, magic)
> + ack = _rawrecv(radio, 7)
> + if ack != "\xFE\xFE\xEF\xEE\xE6\x00\xFD":
> + _exit_program_mode(radio)
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio did not respond as expected (B)")
> +
> +
> +def _download(radio):
> + """Get the memory map"""
> +
> + # Put radio in program mode and identify it
> + _do_ident(radio)
> +
> + # Enter read mode
> + magic = "\xFE\xFE\xEE\xEF\xE2\x55\x56\x38\x38\xFD"
> + _rawsend(radio, magic)
> + ack = _rawrecv(radio, 7)
> + if ack != "\xFE\xFE\xEF\xEE\xE6\x00\xFD":
> + _exit_program_mode(radio)
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio did not respond to enter read mode")
> +
> + # UI progress
> + status = chirp_common.Status()
> + status.cur = 0
> + status.max = MEM_SIZE / BLOCK_SIZE
> + status.msg = "Cloning from radio..."
> + radio.status_fn(status)
> +
> + data = ""
> + for addr in range(0, MEM_SIZE, BLOCK_SIZE):
> + frame = _make_read_frame(addr, BLOCK_SIZE)
> + # DEBUG
> + LOG.debug("Frame=" + util.hexprint(frame))
> +
> + # Sending the read request
> + _rawsend(radio, frame)
> +
> + # Now we read data
> + d = _recv(radio, addr, BLOCK_SIZE + 13)
> +
> + LOG.debug("Response Data= " + util.hexprint(d))
> +
> + if not d.startswith("\xFE\xFE\xEF\xEE\xE4"):
> + LOG.warning("Incorrect start")
> + if not d.endswith("\xFD"):
> + LOG.warning("Incorrect end")
> + # could validate the block data
> +
> + # Aggregate the data
> + data += d[11:-2]
> +
> + # UI Update
> + status.cur = addr / BLOCK_SIZE
> + status.msg = "Cloning from radio..."
> + radio.status_fn(status)
> +
> + _exit_program_mode(radio)
> +
> + return data
> +
> +
> +def _upload(radio):
> + """Upload procedure"""
> + # Put radio in program mode and identify it
> + _do_ident(radio)
> +
> + magic = "\xFE\xFE\xEE\xEF\xE3\x55\x56\x38\x38\xFD"
> + _rawsend(radio, magic)
> + ack = _rawrecv(radio, 7)
> + if ack != "\xFE\xFE\xEF\xEE\xE6\x00\xFD":
> + _exit_program_mode(radio)
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio did not respond to enter write mode")
> +
> + # UI progress
> + status = chirp_common.Status()
> + status.cur = 0
> + status.max = MEM_SIZE / BLOCK_SIZE
> + status.msg = "Cloning to radio..."
> + radio.status_fn(status)
> +
> + # The fun starts here
> + for addr in range(0, MEM_SIZE, BLOCK_SIZE):
> + # Official programmer skips writing these memory locations
> + if addr >= 0x1680 and addr < 0x1940:
> + continue
> +
> + # Sending the data
> + data = radio.get_mmap()[addr:addr + BLOCK_SIZE]
> +
> + frame = _make_write_frame(addr, BLOCK_SIZE, data)
> + LOG.warning("Frame:%s:" % util.hexprint(frame))
> + _rawsend(radio, frame)
> +
> + ack = _rawrecv(radio, 7)
> + LOG.debug("Response Data= " + util.hexprint(ack))
> +
> + if not ack.startswith("\xFE\xFE\xEF\xEE\xE6\x00\xFD"):
> + LOG.warning("Unexpected response")
> + _exit_program_mode(radio)
> + msg = "Bad ack writing block 0x%04x" % addr
> + raise errors.RadioError(msg)
> +
> + # UI Update
> + status.cur = addr / BLOCK_SIZE
> + status.msg = "Cloning to radio..."
> + radio.status_fn(status)
> +
> + _exit_program_mode(radio)
> +
> +
> +def _do_map(chn, sclr, mary):
> + """Set or Clear the chn (1-128) bit in mary[] word array map"""
> + # chn is 1-based channel, sclr:1 = set, 0= = clear, 2= return state
> + # mary[] is u8 array, but the map is by nibbles
> + ndx = int(math.floor((chn - 1) / 8))
> + bv = (chn - 1) % 8
> + msk = 1 << bv
> + mapbit = sclr
> + if sclr == 1: # Set the bit
> + mary[ndx] = mary[ndx] | msk
> + elif sclr == 0: # clear
> + mary[ndx] = mary[ndx] & (~ msk) # ~ is complement
> + else: # return current bit state
> + mapbit = 0
> + if (mary[ndx] & msk) > 0:
> + mapbit = 1
> + return mapbit
> +
> +
> + at directory.register
> +class THUV88Radio(chirp_common.CloneModeRadio):
> + """TYT UV88 Radio"""
> + VENDOR = "TYT"
> + MODEL = "TH-UV88"
> + MODES = ['WFM', 'FM', 'NFM']
> + TONES = chirp_common.TONES
> + DTCS_CODES = chirp_common.DTCS_CODES
> + NAME_LENGTH = 10
> + DTMF_CHARS = list("0123456789ABCD*#")
> + # 136-174, 400-480
> + VALID_BANDS = [(136000000, 174000000), (400000000, 480000000)]
> +
> + # Valid chars on the LCD
> + VALID_CHARS = chirp_common.CHARSET_ALPHANUMERIC + \
> + "`!\"#$%&'()*+,-./:;<=>?@[]^_"
> +
> + @classmethod
> + def get_prompts(cls):
> + rp = chirp_common.RadioPrompts()
> + rp.info = \
> + ('TYT UV-88\n')
> +
> + rp.pre_download = _(dedent("""\
> + This is an early stage beta driver
> + """))
> + rp.pre_upload = _(dedent("""\
> + This is an early stage beta driver - upload at your own risk
> + """))
> + return rp
> +
> + def get_features(self):
> + rf = chirp_common.RadioFeatures()
> + rf.has_settings = True
> + rf.has_bank = False
> + rf.has_comment = False
> + rf.has_tuning_step = False # Not as chan feature
> + rf.valid_tuning_steps = STEPS
> + rf.can_odd_split = False
> + rf.has_name = True
> + rf.has_offset = True
> + rf.has_mode = True
> + rf.has_dtcs = True
> + rf.has_rx_dtcs = True
> + rf.has_dtcs_polarity = True
> + rf.has_ctone = True
> + rf.has_cross = True
> + rf.has_sub_devices = False
> + rf.valid_name_length = self.NAME_LENGTH
> + rf.valid_modes = self.MODES
> + rf.valid_characters = self.VALID_CHARS
> + rf.valid_duplexes = ["-", "+", "off", ""]
> + rf.valid_tmodes = ['', 'Tone', 'TSQL', 'DTCS', 'Cross']
> + rf.valid_cross_modes = ["Tone->Tone", "DTCS->", "->DTCS",
> + "Tone->DTCS", "DTCS->Tone", "->Tone",
> + "DTCS->DTCS"]
> + rf.valid_skips = []
> + rf.valid_power_levels = POWER_LEVELS
> + rf.valid_dtcs_codes = chirp_common.ALL_DTCS_CODES # this is just to
> + # get it working, not sure this is right
> + rf.valid_bands = self.VALID_BANDS
> + rf.memory_bounds = (1, 199)
> + rf.valid_skips = ["", "S"]
> + return rf
> +
> + def sync_in(self):
> + """Download from radio"""
> + try:
> + data = _download(self)
> + except errors.RadioError:
> + # Pass through any real errors we raise
> + raise
> + except Exception:
> + # If anything unexpected happens, make sure we raise
> + # a RadioError and log the problem
> + LOG.exception('Unexpected error during download')
> + raise errors.RadioError('Unexpected error communicating '
> + 'with the radio')
> + self._mmap = memmap.MemoryMap(data)
> + self.process_mmap()
> +
> + def sync_out(self):
> + """Upload to radio"""
> +
> + try:
> + _upload(self)
> + except Exception:
> + # If anything unexpected happens, make sure we raise
> + # a RadioError and log the problem
> + LOG.exception('Unexpected error during upload')
> + raise errors.RadioError('Unexpected error communicating '
> + 'with the radio')
> +
> + def process_mmap(self):
> + """Process the mem map into the mem object"""
> + self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)
> +
> + def get_raw_memory(self, number):
> + return repr(self._memobj.memory[number - 1])
> +
> + def set_memory(self, memory):
> + """A value in a UI column for chan 'number' has been modified."""
> + # update all raw channel memory values (_mem) from UI (mem)
> + _mem = self._memobj.chan_mem[memory.number - 1]
> + _name = self._memobj.chan_name[memory.number - 1]
> +
> + if memory.empty:
> + _do_map(memory.number, 0, self._memobj.chan_avail.bitmap)
> + return
> +
> + _do_map(memory.number, 1, self._memobj.chan_avail.bitmap)
> +
> + if memory.skip == "":
> + _do_map(memory.number, 1, self._memobj.chan_skip.bitmap)
> + else:
> + _do_map(memory.number, 0, self._memobj.chan_skip.bitmap)
> +
> + return self._set_memory(memory, _mem, _name)
> +
> + def get_memory(self, number):
> + # radio first channel is 1, mem map is base 0
> + _mem = self._memobj.chan_mem[number - 1]
> + _name = self._memobj.chan_name[number - 1]
> + mem = chirp_common.Memory()
> + mem.number = number
> +
> + # Determine if channel is empty
> +
> + if _do_map(number, 2, self._memobj.chan_avail.bitmap) == 0:
> + mem.empty = True
> + return mem
> +
> + if _do_map(mem.number, 2, self._memobj.chan_skip.bitmap) > 0:
> + mem.skip = ""
> + else:
> + mem.skip = "S"
> +
> + return self._get_memory(mem, _mem, _name)
> +
> + def _get_memory(self, mem, _mem, _name):
> + """Convert raw channel memory data into UI columns"""
> + mem.extra = RadioSettingGroup("extra", "Extra")
> +
> + mem.empty = False
> + # This function process both 'normal' and Freq up/down' entries
> + mem.freq = int(_mem.rxfreq) * 10
> +
> + if _mem.txfreq == 0xFFFFFFFF:
> + # TX freq not set
> + mem.duplex = "off"
> + mem.offset = 0
> + elif int(_mem.rxfreq) == int(_mem.txfreq):
> + mem.duplex = ""
> + mem.offset = 0
> + else:
> + mem.duplex = int(_mem.rxfreq) > int(_mem.txfreq) \
> + and "-" or "+"
> + mem.offset = abs(int(_mem.rxfreq) - int(_mem.txfreq)) * 10
> +
> + mem.name = ""
> + for i in range(6): # 0 - 6
> + mem.name += chr(_mem.name[i])
> + for i in range(10):
> + mem.name += chr(_name.extra_name[i])
> +
> + mem.name = mem.name.rstrip() # remove trailing spaces
> +
> + # ########## TONE ##########
> +
> + if _mem.txtone > 2600:
> + # All off
> + txmode = ""
> + elif _mem.txtone > 511:
> + txmode = "Tone"
> + mem.rtone = int(_mem.txtone) / 10.0
> + else:
> + # DTSC
> + txmode = "DTCS"
> + mem.dtcs = int(format(int(_mem.txtone), 'o'))
> +
> + if _mem.rxtone > 2600:
> + rxmode = ""
> + elif _mem.rxtone > 511:
> + rxmode = "Tone"
> + mem.ctone = int(_mem.rxtone) / 10.0
> + else:
> + rxmode = "DTCS"
> + mem.rx_dtcs = int(format(int(_mem.rxtone), 'o'))
> +
> + mem.dtcs_polarity = ("N", "R")[_mem.encodeDSCI] + (
> + "N", "R")[_mem.decodeDSCI]
> +
> + mem.tmode = ""
> + if txmode == "Tone" and not rxmode:
> + mem.tmode = "Tone"
> + elif txmode == rxmode and txmode == "Tone" and mem.rtone == mem.ctone:
> + mem.tmode = "TSQL"
> + elif txmode == rxmode and txmode == "DTCS" and mem.dtcs == mem.rx_dtcs:
> + mem.tmode = "DTCS"
> + elif rxmode or txmode:
> + mem.tmode = "Cross"
> + mem.cross_mode = "%s->%s" % (txmode, rxmode)
> +
> + # ########## TONE ##########
> +
> + mem.mode = self.MODES[_mem.wide]
> + mem.power = POWER_LEVELS[int(_mem.power)]
> +
> + b_lock = RadioSetting("b_lock", "B_Lock",
> + RadioSettingValueList(B_LOCK_LIST,
> + B_LOCK_LIST[_mem.b_lock]))
> + mem.extra.append(b_lock)
> +
> + b_lock = RadioSetting("step", "Step",
> + RadioSettingValueList(LIST_STEPS,
> + LIST_STEPS[_mem.step]))
> + mem.extra.append(b_lock)
> +
> + scramble_value = _mem.scramble
> + if scramble_value >= 8: # Looks like OFF is 0x0f ** CONFIRM
> + scramble_value = 0
> + scramble = RadioSetting("scramble", "Scramble",
> + RadioSettingValueList(SCRAMBLE_LIST,
> + SCRAMBLE_LIST[
> + scramble_value]))
> + mem.extra.append(scramble)
> +
> + optsig = RadioSetting("signal", "Optional signaling",
> + RadioSettingValueList(
> + OPTSIG_LIST,
> + OPTSIG_LIST[_mem.signal]))
> + mem.extra.append(optsig)
> +
> + rs = RadioSetting("pttid", "PTT ID",
> + RadioSettingValueList(PTTID_LIST,
> + PTTID_LIST[_mem.pttid]))
> + mem.extra.append(rs)
> +
> + return mem
> +
> + def _set_memory(self, mem, _mem, _name):
> + # """Convert UI column data (mem) into MEM_FORMAT memory (_mem)."""
> +
> + _mem.rxfreq = mem.freq / 10
> + if mem.duplex == "off":
> + _mem.txfreq = 0xFFFFFFFF
> + elif mem.duplex == "+":
> + _mem.txfreq = (mem.freq + mem.offset) / 10
> + elif mem.duplex == "-":
> + _mem.txfreq = (mem.freq - mem.offset) / 10
> + else:
> + _mem.txfreq = _mem.rxfreq
> +
> + out_name = mem.name.ljust(16)
> +
> + for i in range(6): # 0 - 6
> + _mem.name[i] = ord(out_name[i])
> + for i in range(10):
> + _name.extra_name[i] = ord(out_name[i+6])
> +
> + if mem.name != "":
> + _mem.displayName = 1 # Name only displayed if this is set on
> + else:
> + _mem.displayName = 0
> +
> + rxmode = ""
> + txmode = ""
> +
> + if mem.tmode == "Tone":
> + txmode = "Tone"
> + elif mem.tmode == "TSQL":
> + rxmode = "Tone"
> + txmode = "TSQL"
> + elif mem.tmode == "DTCS":
> + rxmode = "DTCSSQL"
> + txmode = "DTCS"
> + elif mem.tmode == "Cross":
> + txmode, rxmode = mem.cross_mode.split("->", 1)
> +
> + if mem.dtcs_polarity[1] == "N":
> + _mem.decodeDSCI = 0
> + else:
> + _mem.decodeDSCI = 1
> +
> + if rxmode == "":
> + _mem.rxtone = 0xFFF
> + elif rxmode == "Tone":
> + _mem.rxtone = int(float(mem.ctone) * 10)
> + elif rxmode == "DTCSSQL":
> + _mem.rxtone = int(str(mem.dtcs), 8)
> + elif rxmode == "DTCS":
> + _mem.rxtone = int(str(mem.rx_dtcs), 8)
> +
> + if mem.dtcs_polarity[0] == "N":
> + _mem.encodeDSCI = 0
> + else:
> + _mem.encodeDSCI = 1
> +
> + if txmode == "":
> + _mem.txtone = 0xFFF
> + elif txmode == "Tone":
> + _mem.txtone = int(float(mem.rtone) * 10)
> + elif txmode == "TSQL":
> + _mem.txtone = int(float(mem.ctone) * 10)
> + elif txmode == "DTCS":
> + _mem.txtone = int(str(mem.dtcs), 8)
> +
> + _mem.wide = self.MODES.index(mem.mode)
> + _mem.power = 0 if mem.power is None else POWER_LEVELS.index(mem.power)
> +
> + for element in mem.extra:
> + setattr(_mem, element.get_name(), element.value)
> +
> + return
> +
> + def get_settings(self):
> + """Translate the MEM_FORMAT structs into setstuf in the UI"""
> + _settings = self._memobj.basicsettings
> + _workmode = self._memobj.workmodesettings
> +
> + basic = RadioSettingGroup("basic", "Basic Settings")
> + group = RadioSettings(basic)
> +
> + # Menu 02 - TX Channel Select
> + options = ["Last Channel", "Main Channel"]
> + rx = RadioSettingValueList(options, options[_settings.txChSelect])
> + rset = RadioSetting("basicsettings.txChSelect",
> + "Priority Transmit", rx)
> + basic.append(rset)
> +
> + # Menu 03 - VOX Level
> + rx = RadioSettingValueInteger(1, 7, _settings.voxLevel - 1)
> + rset = RadioSetting("basicsettings.voxLevel", "Vox Level", rx)
> + basic.append(rset)
> +
> + # Menu 05 - Squelch Level
> + options = ["OFF"] + ["%s" % x for x in range(1, 10)]
> + rx = RadioSettingValueList(options, options[_settings.sqlLevel])
> + rset = RadioSetting("basicsettings.sqlLevel", "Squelch Level", rx)
> + basic.append(rset)
> +
> + # Menu 06 - Dual Wait
> + rx = RadioSettingValueBoolean(_settings.dualWait)
> + rset = RadioSetting("basicsettings.dualWait", "Dual Wait/Standby", rx)
> + basic.append(rset)
> +
> + # Menu 07 - LED Mode
> + options = ["Off", "On", "Auto"]
> + rx = RadioSettingValueList(options, options[_settings.ledMode])
> + rset = RadioSetting("basicsettings.ledMode", "LED Display Mode", rx)
> + basic.append(rset)
> +
> + # Menu 08 - Light
> + options = ["%s" % x for x in range(1, 8)]
> + rx = RadioSettingValueList(options, options[_settings.light])
> + rset = RadioSetting("basicsettings.light",
> + "Background Light Color", rx)
> + basic.append(rset)
> +
> + # Menu 09 - Beep
> + rx = RadioSettingValueBoolean(_settings.beep)
> + rset = RadioSetting("basicsettings.beep", "Keypad Beep", rx)
> + basic.append(rset)
> +
> + # Menu 11 - TOT
> + options = ["Off"] + ["%s seconds" % x for x in range(30, 300, 30)]
> + rx = RadioSettingValueList(options, options[_settings.tot])
> + rset = RadioSetting("basicsettings.tot",
> + "Transmission Time-out Timer", rx)
> + basic.append(rset)
> +
> + # Menu 13 - VOX Switch
> + rx = RadioSettingValueBoolean(_settings.voxSw)
> + rset = RadioSetting("basicsettings.voxSw", "Vox Switch", rx)
> + basic.append(rset)
> +
> + # Menu 14 - Roger
> + rx = RadioSettingValueBoolean(_settings.roger)
> + rset = RadioSetting("basicsettings.roger", "Roger Beep", rx)
> + basic.append(rset)
> +
> + # Menu 16 - Save Mode
> + options = ["Off", "1:1", "1:2", "1:4"]
> + rx = RadioSettingValueList(options, options[_settings.saveMode])
> + rset = RadioSetting("basicsettings.saveMode", "Battery Save Mode", rx)
> + basic.append(rset)
> +
> + # Menu 33 - Display Mode
> + options = ['Frequency', 'Channel', 'Name']
> + rx = RadioSettingValueList(options, options[_settings.disMode])
> + rset = RadioSetting("basicsettings.disMode", "LED Display Mode", rx)
> + basic.append(rset)
> +
> + advanced = RadioSettingGroup("advanced", "Advanced Settings")
> + group.append(advanced)
> +
> + # software only
> + options = ['0.5S', '1.0S', '1.5S', '2.0S', '2.5S', '3.0S', '3.5S',
> + '4.0S', '4.5S', '5.0S']
> + rx = RadioSettingValueList(options, options[_settings.voxDelay])
> + rset = RadioSetting("basicsettings.voxDelay", "VOX Delay", rx)
> + advanced.append(rset)
> +
> + # software only
> + name = ""
> + for i in range(16): # 0 - 16
> + name += chr(self._memobj.openradioname.name1[i])
> + name = name.rstrip() # remove trailing spaces
> +
> + rx = RadioSettingValueString(0, 16, name)
> + rset = RadioSetting("openradioname.name1", "Intro Line 1", rx)
> + advanced.append(rset)
> +
> + # software only
> + name = ""
> + for i in range(16): # 0 - 16
> + name += chr(self._memobj.openradioname.name2[i])
> + name = name.rstrip() # remove trailing spaces
> +
> + rx = RadioSettingValueString(0, 16, name)
> + rset = RadioSetting("openradioname.name2", "Intro Line 2", rx)
> + advanced.append(rset)
> +
> + workmode = RadioSettingGroup("workmode", "Work Mode Settings")
> + group.append(workmode)
> +
> + # Toggle with [#] key
> + options = ["Frequency", "Channel"]
> + rx = RadioSettingValueList(options, options[_workmode.vfomrmode])
> + rset = RadioSetting("workmodesettings.vfomrmode", "VFO/MR Mode", rx)
> + workmode.append(rset)
> +
> + # Toggle with [A/B] key
> + options = ["A", "B"]
> + rx = RadioSettingValueList(options, options[_workmode.ab])
> + rset = RadioSetting("workmodesettings.ab", "A/B Select", rx)
> + workmode.append(rset)
> +
> + return group # END get_settings()
> +
> + def set_settings(self, settings):
> + return
> + _settings = self._memobj.settings
> + _mem = self._memobj
> + for element in settings:
> + if not isinstance(element, RadioSetting):
> + self.set_settings(element)
> + continue
> + else:
> + try:
> + name = element.get_name()
> + if "." in name:
> + bits = name.split(".")
> + obj = self._memobj
> + for bit in bits[:-1]:
> + if "/" in bit:
> + bit, index = bit.split("/", 1)
> + index = int(index)
> + obj = getattr(obj, bit)[index]
> + else:
> + obj = getattr(obj, bit)
> + setting = bits[-1]
> + else:
> + obj = _settings
> + setting = element.get_name()
> +
> + if element.has_apply_callback():
> + LOG.debug("Using apply callback")
> + element.run_apply_callback()
> + elif setting == "voxLevel":
> + setattr(obj, setting, int(element.value) + 1)
> + elif element.value.get_mutable():
> + LOG.debug("Setting %s = %s" % (setting, element.value))
> + setattr(obj, setting, element.value)
> + except Exception, e:
> + LOG.debug(element.get_name())
> + raise
> diff -r d5e496f563fd -r 3fd7ed9a0de0 tools/cpep8.manifest
> --- a/tools/cpep8.manifest Fri Nov 13 08:07:04 2020 -0500
> +++ b/tools/cpep8.manifest Mon Nov 16 15:18:58 2020 -0500
> @@ -77,6 +77,7 @@
> ./chirp/drivers/th_uv3r.py
> ./chirp/drivers/th_uv3r25.py
> ./chirp/drivers/th_uv8000.py
> +./chirp/drivers/th_uv88.py
> ./chirp/drivers/th_uvf8d.py
> ./chirp/drivers/thd72.py
> ./chirp/drivers/thuv1f.py
> _______________________________________________
> chirp_devel mailing list
> chirp_devel at intrepid.danplanet.com
> http://intrepid.danplanet.com/mailman/listinfo/chirp_devel
> Developer docs: http://chirp.danplanet.com/projects/chirp/wiki/Developers
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