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Bug #2057 » uv5r.py

Jim Unroe, 11/17/2014 05:04 PM

 
# Copyright 2012 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 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/>.

import struct
import time
import os

from chirp import chirp_common, errors, util, directory, memmap
from chirp import bitwise
from chirp.settings import RadioSetting, RadioSettingGroup, \
RadioSettingValueInteger, RadioSettingValueList, \
RadioSettingValueBoolean, RadioSettingValueString, \
RadioSettingValueFloat, InvalidValueError
from textwrap import dedent

if os.getenv("CHIRP_DEBUG"):
CHIRP_DEBUG = True
else:
CHIRP_DEBUG = False

MEM_FORMAT = """
#seekto 0x0008;
struct {
lbcd rxfreq[4];
lbcd txfreq[4];
ul16 rxtone;
ul16 txtone;
u8 unused1:3,
isuhf:1,
scode:4;
u8 unknown1:7,
txtoneicon:1;
u8 mailicon:3,
unknown2:3,
lowpower:2;
u8 unknown3:1,
wide:1,
unknown4:2,
bcl:1,
scan:1,
pttid:2;
} memory[128];

#seekto 0x0B08;
struct {
u8 code[5];
u8 unused[11];
} pttid[15];

#seekto 0x0C88;
struct {
u8 code222[3];
u8 unused222[2];
u8 code333[3];
u8 unused333[2];
u8 alarmcode[3];
u8 unused119[2];
u8 unknown1;
u8 code555[3];
u8 unused555[2];
u8 code666[3];
u8 unused666[2];
u8 code777[3];
u8 unused777[2];
u8 unknown2;
u8 code60606[5];
u8 code70707[5];
u8 code[5];
u8 unused1:6,
aniid:2;
u8 unknown[2];
u8 dtmfon;
u8 dtmfoff;
} ani;

#seekto 0x0E28;
struct {
u8 squelch;
u8 step;
u8 unknown1;
u8 save;
u8 vox;
u8 unknown2;
u8 abr;
u8 tdr;
u8 beep;
u8 timeout;
u8 unknown3[4];
u8 voice;
u8 unknown4;
u8 dtmfst;
u8 unknown5;
u8 unknown12:6,
screv:2;
u8 pttid;
u8 pttlt;
u8 mdfa;
u8 mdfb;
u8 bcl;
u8 autolk; // NOTE: The UV-6 calls this byte voxenable, but the UV-5R calls
// it autolk. Since this is a minor difference, it will be referred
// to by the wrong name for the UV-6.
u8 sftd;
u8 unknown6[3];
u8 wtled;
u8 rxled;
u8 txled;
u8 almod;
u8 band;
u8 tdrab;
u8 ste;
u8 rpste;
u8 rptrl;
u8 ponmsg;
u8 roger;
u8 rogerrx;
u8 tdrch;
u8 displayab:1,
unknown1:2,
fmradio:1,
alarm:1,
unknown2:1,
reset:1,
menu:1;
u8 unknown1:6,
singleptt:1,
vfomrlock:1;
u8 workmode;
u8 keylock;
} settings;

#seekto 0x0E7E;
struct {
u8 unused1:1,
mrcha:7;
u8 unused2:1,
mrchb:7;
} wmchannel;

#seekto 0x0F10;
struct {
u8 freq[8];
u8 unknown1;
u8 offset[4];
u8 unknown2;
ul16 rxtone;
ul16 txtone;
u8 unused1:7,
band:1;
u8 unknown3;
u8 unused2:2,
sftd:2,
scode:4;
u8 unknown4;
u8 unused3:1
step:3,
unused4:4;
u8 txpower:1,
widenarr:1,
unknown5:4,
txpower3:2;
} vfoa;

#seekto 0x0F30;
struct {
u8 freq[8];
u8 unknown1;
u8 offset[4];
u8 unknown2;
ul16 rxtone;
ul16 txtone;
u8 unused1:7,
band:1;
u8 unknown3;
u8 unused2:2,
sftd:2,
scode:4;
u8 unknown4;
u8 unused3:1
step:3,
unused4:4;
u8 txpower:1,
widenarr:1,
unknown5:4,
txpower3:2;
} vfob;

#seekto 0x0F56;
u16 fm_presets;

#seekto 0x1008;
struct {
char name[7];
u8 unknown2[9];
} names[128];

#seekto 0x1818;
struct {
char line1[7];
char line2[7];
} sixpoweron_msg;

#seekto 0x%04X;
struct {
char line1[7];
char line2[7];
} poweron_msg;

#seekto 0x1838;
struct {
char line1[7];
char line2[7];
} firmware_msg;

struct limit {
u8 enable;
bbcd lower[2];
bbcd upper[2];
};

#seekto 0x1908;
struct {
struct limit vhf;
struct limit uhf;
} limits_new;

#seekto 0x1910;
struct {
u8 unknown1[2];
struct limit vhf;
u8 unknown2;
u8 unknown3[8];
u8 unknown4[2];
struct limit uhf;
} limits_old;

"""

# 0x1EC0 - 0x2000

vhf_220_radio = "\x02"

BASETYPE_UV5R = ["BFS", "BFB", "N5R-2", "BTS"]
BASETYPE_F11 = ["USA"]
BASETYPE_UV82 = ["US2S", "B82S", "BF82"]
BASETYPE_BJ55 = ["BJ55"] # needed for for the Baojie UV-55 in bjuv55.py
BASETYPE_UV6 = ["BF1"]
BASETYPE_KT980HP = ["BFP3V3 B"]
BASETYPE_F8HP = ["BFP3V3 F", "N5R-3"]
BASETYPE_LIST = BASETYPE_UV5R + BASETYPE_F11 + BASETYPE_UV82 + \
BASETYPE_BJ55 + BASETYPE_UV6 + BASETYPE_KT980HP + \
BASETYPE_F8HP

AB_LIST = ["A", "B"]
ALMOD_LIST = ["Site", "Tone", "Code"]
BANDWIDTH_LIST = ["Wide", "Narrow"]
COLOR_LIST = ["Off", "Blue", "Orange", "Purple"]
DTMFSPEED_LIST = ["%s ms" % x for x in range(50, 2010, 10)]
DTMFST_LIST = ["OFF", "DT-ST", "ANI-ST", "DT+ANI"]
MODE_LIST = ["Channel", "Name", "Frequency"]
PONMSG_LIST = ["Full", "Message"]
PTTID_LIST = ["Off", "BOT", "EOT", "Both"]
PTTIDCODE_LIST = ["%s" % x for x in range(1, 16)]
RESUME_LIST = ["TO", "CO", "SE"]
ROGERRX_LIST = ["Off"] + AB_LIST
RPSTE_LIST = ["OFF"] + ["%s" % x for x in range(1, 11)]
SAVE_LIST = ["Off", "1:1", "1:2", "1:3", "1:4"]
SCODE_LIST = ["%s" % x for x in range(1, 16)]
SHIFTD_LIST = ["Off", "+", "-"]
STEDELAY_LIST = ["OFF"] + ["%s ms" % x for x in range(100, 1100, 100)]
STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 25.0]
STEP_LIST = [str(x) for x in STEPS]
STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 20.0, 25.0, 50.0]
STEP291_LIST = [str(x) for x in STEPS]
TDRAB_LIST = ["Off"] + AB_LIST
TDRCH_LIST = ["CH%s" % x for x in range(1, 129)]
TIMEOUT_LIST = ["%s sec" % x for x in range(15, 615, 15)]
TXPOWER_LIST = ["High", "Low"]
TXPOWER3_LIST = ["High", "Mid", "Low"]
VOICE_LIST = ["Off", "English", "Chinese"]
VOX_LIST = ["OFF"] + ["%s" % x for x in range(1, 11)]
WORKMODE_LIST = ["Frequency", "Channel"]

SETTING_LISTS = {
"almod" : ALMOD_LIST,
"aniid" : PTTID_LIST,
"displayab" : AB_LIST,
"dtmfst" : DTMFST_LIST,
"dtmfspeed" : DTMFSPEED_LIST,
"mdfa" : MODE_LIST,
"mdfb" : MODE_LIST,
"ponmsg" : PONMSG_LIST,
"pttid" : PTTID_LIST,
"rogerrx" : ROGERRX_LIST,
"rpste" : RPSTE_LIST,
"rxled" : COLOR_LIST,
"save" : SAVE_LIST,
"scode" : PTTIDCODE_LIST,
"screv" : RESUME_LIST,
"sftd" : SHIFTD_LIST,
"stedelay" : STEDELAY_LIST,
"step" : STEP_LIST,
"step291" : STEP291_LIST,
"tdrab" : TDRAB_LIST,
"tdrch" : TDRCH_LIST,
"timeout" : TIMEOUT_LIST,
"txled" : COLOR_LIST,
"txpower" : TXPOWER_LIST,
"txpower3" : TXPOWER3_LIST,
"voice" : VOICE_LIST,
"vox" : VOX_LIST,
"widenarr" : BANDWIDTH_LIST,
"workmode" : WORKMODE_LIST,
"wtled" : COLOR_LIST
}

def _do_status(radio, block):
status = chirp_common.Status()
status.msg = "Cloning"
status.cur = block
status.max = radio.get_memsize()
radio.status_fn(status)

def validate_orig(ident):
try:
ver = int(ident[4:7])
if ver >= 291:
raise errors.RadioError("Radio version %i not supported" % ver)
except ValueError:
raise errors.RadioError("Radio reported invalid version string")

def validate_291(ident):
if ident[4:7] != "\x30\x04\x50":
raise errors.RadioError("Radio version not supported")

UV5R_MODEL_ORIG = "\x50\xBB\xFF\x01\x25\x98\x4D"
UV5R_MODEL_291 = "\x50\xBB\xFF\x20\x12\x07\x25"
UV5R_MODEL_F11 = "\x50\xBB\xFF\x13\xA1\x11\xDD"
UV5R_MODEL_UV82 = "\x50\xBB\xFF\x20\x13\x01\x05"
UV5R_MODEL_UV6 = "\x50\xBB\xFF\x20\x12\x08\x23"
UV5R_MODEL_UV6_ORIG = "\x50\xBB\xFF\x12\x03\x98\x4D"

def _upper_band_from_data(data):
return data[0x03:0x04]

def _upper_band_from_image(radio):
return _upper_band_from_data(radio.get_mmap())

def _firmware_version_from_data(data, version_start, version_stop):
version_tag = data[version_start:version_stop]
return version_tag

def _firmware_version_from_image(radio):
version = _firmware_version_from_data(radio.get_mmap(),
radio._fw_ver_file_start,
radio._fw_ver_file_stop)
if CHIRP_DEBUG:
print "_firmware_version_from_image: " + util.hexprint(version)
return version

def _special_block_from_data(data, special_block_start, special_block_stop):
special_block_tag = data[special_block_start:special_block_stop]
return special_block_tag

def _special_block_from_image(radio):
special_block = _special_block_from_data(radio.get_mmap(), 0x0CFA, 0x0D01)
if CHIRP_DEBUG:
print "_special_block_from_image: " + util.hexprint(special_block)
return special_block

def _do_ident(radio, magic):
serial = radio.pipe
serial.setTimeout(1)

print "Sending Magic: %s" % util.hexprint(magic)
for byte in magic:
serial.write(byte)
time.sleep(0.01)
ack = serial.read(1)

if ack != "\x06":
if ack:
print repr(ack)
raise errors.RadioError("Radio did not respond")

serial.write("\x02")
ident = serial.read(8)

print "Ident:\n%s" % util.hexprint(ident)

serial.write("\x06")
ack = serial.read(1)
if ack != "\x06":
raise errors.RadioError("Radio refused clone")

return ident

def _read_block(radio, start, size):
msg = struct.pack(">BHB", ord("S"), start, size)
radio.pipe.write(msg)

answer = radio.pipe.read(4)
if len(answer) != 4:
raise errors.RadioError("Radio refused to send block 0x%04x" % start)

cmd, addr, length = struct.unpack(">BHB", answer)
if cmd != ord("X") or addr != start or length != size:
print "Invalid answer for block 0x%04x:" % start
print "CMD: %s ADDR: %04x SIZE: %02x" % (cmd, addr, length)
raise errors.RadioError("Unknown response from radio")

chunk = radio.pipe.read(0x40)
if not chunk:
raise errors.RadioError("Radio did not send block 0x%04x" % start)
elif len(chunk) != size:
print "Chunk length was 0x%04i" % len(chunk)
raise errors.RadioError("Radio sent incomplete block 0x%04x" % start)

radio.pipe.write("\x06")

ack = radio.pipe.read(1)
if ack != "\x06":
raise errors.RadioError("Radio refused to send block 0x%04x" % start)

return chunk

def _get_radio_firmware_version(radio):
if radio.MODEL == "BJ-UV55":
block = _read_block(radio, 0x1FF0, 0x40)
version = block[0:6]
else:
block1 = _read_block(radio, 0x1EC0, 0x40)
block2 = _read_block(radio, 0x1F00, 0x40)
block = block1 + block2
version = block[48:62]
return version

def _get_radio_special_block(radio):
block = _read_block(radio, 0xCF0, 0x40)
special_block = block[2:9]
return special_block

def _ident_radio(radio):
for magic in radio._idents:
error = None
try:
data = _do_ident(radio, magic)
return data
except errors.RadioError, e:
print e
error = e
time.sleep(2)
if error:
raise error
raise errors.RadioError("Radio did not respond")

def _do_download(radio):
data = _ident_radio(radio)

radio_version = _get_radio_firmware_version(radio)
print "Radio Version is %s" % repr(radio_version)

if not any(type in radio_version for type in radio._basetype):
raise errors.RadioError("Incorrect 'Model' selected.")

# Main block
if CHIRP_DEBUG:
print "downloading main block..."
for i in range(0, 0x1800, 0x40):
data += _read_block(radio, i, 0x40)
_do_status(radio, i)
if CHIRP_DEBUG:
print "done."
print "downloading aux block..."
# Auxiliary block starts at 0x1ECO (?)
for i in range(0x1EC0, 0x2000, 0x40):
data += _read_block(radio, i, 0x40)
if CHIRP_DEBUG:
print "done."
return memmap.MemoryMap(data)

def _send_block(radio, addr, data):
msg = struct.pack(">BHB", ord("X"), addr, len(data))
radio.pipe.write(msg + data)

ack = radio.pipe.read(1)
if ack != "\x06":
raise errors.RadioError("Radio refused to accept block 0x%04x" % addr)

def _do_upload(radio):
ident = _ident_radio(radio)
radio_upper_band = ident[3:4]
image_upper_band = _upper_band_from_image(radio)

if image_upper_band == vhf_220_radio or radio_upper_band == vhf_220_radio:
if image_upper_band != radio_upper_band:
raise errors.RadioError("Image not supported by radio")

image_version = _firmware_version_from_image(radio)
radio_version = _get_radio_firmware_version(radio)
print "Image Version is %s" % repr(image_version)
print "Radio Version is %s" % repr(radio_version)

if not any(type in radio_version for type in BASETYPE_LIST):
raise errors.RadioError("Unsupported firmware version: `%s'" %
radio_version)

image_special_block = _special_block_from_image(radio)
radio_special_block = _get_radio_special_block(radio)
print "Image Special Block is " + util.hexprint(image_special_block)
print "Radio Special Block is " + util.hexprint(radio_special_block)

if image_special_block != radio_special_block:
raise errors.RadioError("Image not supported by radio: `%s'" %
radio_special_block)

# Main block
for i in range(0x08, 0x1808, 0x10):
_send_block(radio, i - 0x08, radio.get_mmap()[i:i + 0x10])
_do_status(radio, i)

if len(radio.get_mmap().get_packed()) == 0x1808:
print "Old image, not writing aux block"
return # Old image, no aux block

if image_version != radio_version:
msg = ("Upload finished, but the 'Other Settings' "
"could not be sent because the firmware "
"version of the image (%s) does not match "
"that of the radio (%s).")
raise errors.RadioError(msg % (image_version, radio_version))

# Auxiliary block at radio address 0x1EC0, our offset 0x1808
for i in range(0x1EC0, 0x2000, 0x10):
addr = 0x1808 + (i - 0x1EC0)
_send_block(radio, i, radio.get_mmap()[addr:addr + 0x10])

UV5R_POWER_LEVELS = [chirp_common.PowerLevel("High", watts=4.00),
chirp_common.PowerLevel("Low", watts=1.00)]

UV5R_POWER_LEVELS3 = [chirp_common.PowerLevel("High", watts=8.00),
chirp_common.PowerLevel("Med", watts=4.00),
chirp_common.PowerLevel("Low", watts=1.00)]

UV5R_DTCS = sorted(chirp_common.DTCS_CODES + [645])

UV5R_CHARSET = chirp_common.CHARSET_UPPER_NUMERIC + \
"!@#$%^&*()+-=[]:\";'<>?,./"

# Uncomment this to actually register this radio in CHIRP
@directory.register
class BaofengUV5R(chirp_common.CloneModeRadio,
chirp_common.ExperimentalRadio):
"""Baofeng UV-5R"""
VENDOR = "Baofeng"
MODEL = "UV-5R"
BAUD_RATE = 9600

_memsize = 0x1808
_basetype = BASETYPE_UV5R
_idents = [UV5R_MODEL_291,
UV5R_MODEL_ORIG
]
_vhf_range = (136000000, 174000000)
_220_range = (220000000, 260000000)
_uhf_range = (400000000, 520000000)
_mem_params = ( 0x1828 # poweron_msg offset
)
# offset of fw version in image file
_fw_ver_file_start = 0x1838
_fw_ver_file_stop = 0x1846

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()
rp.experimental = ('Due to the fact that the manufacturer continues to '
'release new versions of the firmware with obscure and '
'hard-to-track changes, this driver may not work with '
'your device. Thus far and to the best knowledge of the '
'author, no UV-5R radios have been harmed by using CHIRP. '
'However, proceed at your own risk!')
rp.pre_download = _(dedent("""\
1. Turn radio off.
2. Connect cable to mic/spkr connector.
3. Make sure connector is firmly connected.
4. Turn radio on (volume may need to be set at 100%).
5. Ensure that the radio is tuned to channel with no activity.
6. Click OK to download image from device."""))
rp.pre_upload = _(dedent("""\
1. Turn radio off.
2. Connect cable to mic/spkr connector.
3. Make sure connector is firmly connected.
4. Turn radio on (volume may need to be set at 100%).
5. Ensure that the radio is tuned to channel with no activity.
6. Click OK to upload image to device."""))
return rp

def get_features(self):
rf = chirp_common.RadioFeatures()
rf.has_settings = True
rf.has_bank = False
rf.has_cross = True
rf.has_rx_dtcs = True
rf.has_tuning_step = False
rf.can_odd_split = True
rf.valid_name_length = 7
rf.valid_characters = UV5R_CHARSET
rf.valid_skips = ["", "S"]
rf.valid_tmodes = ["", "Tone", "TSQL", "DTCS", "Cross"]
rf.valid_cross_modes = ["Tone->Tone", "Tone->DTCS", "DTCS->Tone",
"->Tone", "->DTCS", "DTCS->", "DTCS->DTCS"]
rf.valid_power_levels = UV5R_POWER_LEVELS
rf.valid_duplexes = ["", "-", "+", "split", "off"]
rf.valid_modes = ["FM", "NFM"]

normal_bands = [self._vhf_range, self._uhf_range]
rax_bands = [self._vhf_range, self._220_range]

if self._mmap is None:
rf.valid_bands = [normal_bands[0], rax_bands[1], normal_bands[1]]
elif not self._is_orig() and self._my_upper_band() == vhf_220_radio:
rf.valid_bands = rax_bands
else:
rf.valid_bands = normal_bands
rf.memory_bounds = (0, 127)
return rf

@classmethod
def match_model(cls, filedata, filename):
match_size = False
match_model = False
if len(filedata) in [0x1808, 0x1948]:
match_size = True
fwdata = _firmware_version_from_data(filedata,
cls._fw_ver_file_start,
cls._fw_ver_file_stop)
if any(type in fwdata for type in cls._basetype):
match_model = True
if match_size and match_model:
return True
else:
return False

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

def sync_in(self):
try:
self._mmap = _do_download(self)
except errors.RadioError:
raise
except Exception, e:
raise errors.RadioError("Failed to communicate with radio: %s" % e)
self.process_mmap()

def sync_out(self):
try:
_do_upload(self)
except errors.RadioError:
raise
except Exception, e:
raise errors.RadioError("Failed to communicate with radio: %s" % e)

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

def _is_txinh(self, _mem):
raw_tx = ""
for i in range(0, 4):
raw_tx += _mem.txfreq[i].get_raw()
return raw_tx == "\xFF\xFF\xFF\xFF"

def _get_mem(self, number):
return self._memobj.memory[number]

def _get_nam(self, number):
return self._memobj.names[number]

def get_memory(self, number):
_mem = self._get_mem(number)
_nam = self._get_nam(number)

mem = chirp_common.Memory()
mem.number = number

if _mem.get_raw()[0] == "\xff":
mem.empty = True
return mem

mem.freq = int(_mem.rxfreq) * 10

if self._is_txinh(_mem):
mem.duplex = "off"
mem.offset = 0
elif int(_mem.rxfreq) == int(_mem.txfreq):
mem.duplex = ""
mem.offset = 0
elif abs(int(_mem.rxfreq) * 10 - int(_mem.txfreq) * 10) > 70000000:
mem.duplex = "split"
mem.offset = int(_mem.txfreq) * 10
else:
mem.duplex = int(_mem.rxfreq) > int(_mem.txfreq) and "-" or "+"
mem.offset = abs(int(_mem.rxfreq) - int(_mem.txfreq)) * 10

for char in _nam.name:
if str(char) == "\xFF":
char = " " # The UV-5R software may have 0xFF mid-name
mem.name += str(char)
mem.name = mem.name.rstrip()

dtcs_pol = ["N", "N"]

if _mem.txtone in [0, 0xFFFF]:
txmode = ""
elif _mem.txtone >= 0x0258:
txmode = "Tone"
mem.rtone = int(_mem.txtone) / 10.0
elif _mem.txtone <= 0x0258:
txmode = "DTCS"
if _mem.txtone > 0x69:
index = _mem.txtone - 0x6A
dtcs_pol[0] = "R"
else:
index = _mem.txtone - 1
mem.dtcs = UV5R_DTCS[index]
else:
print "Bug: txtone is %04x" % _mem.txtone

if _mem.rxtone in [0, 0xFFFF]:
rxmode = ""
elif _mem.rxtone >= 0x0258:
rxmode = "Tone"
mem.ctone = int(_mem.rxtone) / 10.0
elif _mem.rxtone <= 0x0258:
rxmode = "DTCS"
if _mem.rxtone >= 0x6A:
index = _mem.rxtone - 0x6A
dtcs_pol[1] = "R"
else:
index = _mem.rxtone - 1
mem.rx_dtcs = UV5R_DTCS[index]
else:
print "Bug: rxtone is %04x" % _mem.rxtone

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)

mem.dtcs_polarity = "".join(dtcs_pol)

if not _mem.scan:
mem.skip = "S"

if self.MODEL == "KT-980HP" or self.MODEL == "BF-F8HP":
levels = UV5R_POWER_LEVELS3
else:
levels = UV5R_POWER_LEVELS
try:
mem.power = levels[_mem.lowpower]
except IndexError:
print "Radio reported invalid power level %s (in %s)" % (
_mem.power, levels)
mem.power = levels[0]

mem.mode = _mem.wide and "FM" or "NFM"

mem.extra = RadioSettingGroup("Extra", "extra")

rs = RadioSetting("bcl", "BCL",
RadioSettingValueBoolean(_mem.bcl))
mem.extra.append(rs)

rs = RadioSetting("pttid", "PTT ID",
RadioSettingValueList(PTTID_LIST,
PTTID_LIST[_mem.pttid]))
mem.extra.append(rs)

rs = RadioSetting("scode", "PTT ID Code",
RadioSettingValueList(PTTIDCODE_LIST,
PTTIDCODE_LIST[_mem.scode]))
mem.extra.append(rs)

return mem

def _set_mem(self, number):
return self._memobj.memory[number]

def _set_nam(self, number):
return self._memobj.names[number]

def set_memory(self, mem):
_mem = self._get_mem(mem.number)
_nam = self._get_nam(mem.number)

if mem.empty:
_mem.set_raw("\xff" * 16)
return

_mem.set_raw("\x00" * 16)

_mem.rxfreq = mem.freq / 10

if mem.duplex == "off":
for i in range(0, 4):
_mem.txfreq[i].set_raw("\xFF")
elif mem.duplex == "split":
_mem.txfreq = mem.offset / 10
elif mem.duplex == "+":
_mem.txfreq = (mem.freq + mem.offset) / 10
elif mem.duplex == "-":
_mem.txfreq = (mem.freq - mem.offset) / 10
else:
_mem.txfreq = mem.freq / 10

_namelength = self.get_features().valid_name_length
for i in range(_namelength):
try:
_nam.name[i] = mem.name[i]
except IndexError:
_nam.name[i] = "\xFF"

rxmode = txmode = ""
if mem.tmode == "Tone":
_mem.txtone = int(mem.rtone * 10)
_mem.rxtone = 0
elif mem.tmode == "TSQL":
_mem.txtone = int(mem.ctone * 10)
_mem.rxtone = int(mem.ctone * 10)
elif mem.tmode == "DTCS":
rxmode = txmode = "DTCS"
_mem.txtone = UV5R_DTCS.index(mem.dtcs) + 1
_mem.rxtone = UV5R_DTCS.index(mem.dtcs) + 1
elif mem.tmode == "Cross":
txmode, rxmode = mem.cross_mode.split("->", 1)
if txmode == "Tone":
_mem.txtone = int(mem.rtone * 10)
elif txmode == "DTCS":
_mem.txtone = UV5R_DTCS.index(mem.dtcs) + 1
else:
_mem.txtone = 0
if rxmode == "Tone":
_mem.rxtone = int(mem.ctone * 10)
elif rxmode == "DTCS":
_mem.rxtone = UV5R_DTCS.index(mem.rx_dtcs) + 1
else:
_mem.rxtone = 0
else:
_mem.rxtone = 0
_mem.txtone = 0

if txmode == "DTCS" and mem.dtcs_polarity[0] == "R":
_mem.txtone += 0x69
if rxmode == "DTCS" and mem.dtcs_polarity[1] == "R":
_mem.rxtone += 0x69

_mem.scan = mem.skip != "S"
_mem.wide = mem.mode == "FM"

if mem.power:
if self.MODEL == "KT-980HP" or self.MODEL == "BF-F8HP":
levels = [str(l) for l in UV5R_POWER_LEVELS3]
_mem.lowpower = levels.index(str(mem.power))
else:
_mem.lowpower = UV5R_POWER_LEVELS.index(mem.power)
else:
_mem.lowpower = 0

for setting in mem.extra:
setattr(_mem, setting.get_name(), setting.value)

def _is_orig(self):
version_tag = _firmware_version_from_image(self)
if CHIRP_DEBUG:
print "@_is_orig, version_tag:", util.hexprint(version_tag)
try:
if 'BFB' in version_tag:
idx = version_tag.index("BFB") + 3
version = int(version_tag[idx:idx + 3])
return version < 291
return False
except:
pass
raise errors.RadioError("Unable to parse version string %s" %
version_tag)

def _my_version(self):
version_tag = _firmware_version_from_image(self)
if 'BFS' in version_tag:
idx = version_tag.index("BFS") + 3
return int(version_tag[idx:idx + 3])
elif 'BTS' in version_tag:
idx = version_tag.index("BTS") + 3
return int(version_tag[idx:idx + 3])
elif 'BF82' in version_tag:
idx = version_tag.index("BF82") + 2
return int(version_tag[idx:idx + 4])
elif 'B82S' in version_tag:
idx = version_tag.index("B82S") + 4
return int(version_tag[idx:idx + 2]) + 8200
elif 'US2S' in version_tag:
idx = version_tag.index("US2S") + 4
return int(version_tag[idx:idx + 2]) + 8200
elif 'USA' in version_tag:
idx = version_tag.index("USA") + 3
return int(version_tag[idx:idx + 3]) + 11000
elif 'BJ55' in version_tag:
idx = version_tag.index("BJ55") + 2
return int(version_tag[idx:idx + 4])
elif 'BF1' in version_tag:
idx = version_tag.index("BF1") + 2
return int(version_tag[idx:idx + 4])
elif 'BFP' in version_tag:
idx = version_tag.index("BFP") + 5
return int(version_tag[idx:idx + 1]) + 98000
elif 'N5R-2' in version_tag:
idx = version_tag.index("N5R-2") + 4
return int(version_tag[idx:idx + 2]) + 300
elif 'N5R-3' in version_tag:
idx = version_tag.index("N5R-3") + 4
return int(version_tag[idx:idx + 2]) + 98000
elif 'BFB' in version_tag:
idx = version_tag.index("BFB") + 3
return int(version_tag[idx:idx + 3])

raise Exception("Unrecognized firmware version string")

def _my_upper_band(self):
band_tag = _upper_band_from_image(self)
return band_tag

def _get_settings(self):
_ani = self._memobj.ani
_settings = self._memobj.settings
_vfoa = self._memobj.vfoa
_vfob = self._memobj.vfob
_wmchannel = self._memobj.wmchannel
basic = RadioSettingGroup("basic", "Basic Settings")
advanced = RadioSettingGroup("advanced", "Advanced Settings")
group = RadioSettingGroup("top", "All Settings", basic, advanced)

rs = RadioSetting("squelch", "Carrier Squelch Level",
RadioSettingValueInteger(0, 9, _settings.squelch))
basic.append(rs)

rs = RadioSetting("save", "Battery Saver",
RadioSettingValueList(SAVE_LIST,
SAVE_LIST[_settings.save]))
basic.append(rs)

rs = RadioSetting("vox", "VOX Sensitivity",
RadioSettingValueList(VOX_LIST,
VOX_LIST[_settings.vox]))
advanced.append(rs)

if self.MODEL == "UV-6":
# NOTE: The UV-6 calls this byte voxenable, but the UV-5R calls it
# autolk. Since this is a minor difference, it will be referred to
# by the wrong name for the UV-6.
rs = RadioSetting("autolk", "Vox",
RadioSettingValueBoolean(_settings.autolk))
advanced.append(rs)

if self.MODEL != "UV-6":
rs = RadioSetting("abr", "Backlight Timeout",
RadioSettingValueInteger(0, 24, _settings.abr))
basic.append(rs)

rs = RadioSetting("tdr", "Dual Watch",
RadioSettingValueBoolean(_settings.tdr))
advanced.append(rs)

if self.MODEL == "UV-6":
rs = RadioSetting("tdrch", "Dual Watch Channel",
RadioSettingValueList(TDRCH_LIST,
TDRCH_LIST[
_settings.tdrch]))
advanced.append(rs)

rs = RadioSetting("tdrab", "Dual Watch TX Priority",
RadioSettingValueBoolean(_settings.tdrab))
advanced.append(rs)
else:
rs = RadioSetting("tdrab", "Dual Watch TX Priority",
RadioSettingValueList(TDRAB_LIST,
TDRAB_LIST[
_settings.tdrab]))
advanced.append(rs)

if self.MODEL == "UV-6":
rs = RadioSetting("alarm", "Alarm Sound",
RadioSettingValueBoolean(_settings.alarm))
advanced.append(rs)

if _settings.almod > 0x02:
val = 0x01
else:
val = _settings.almod
rs = RadioSetting("almod", "Alarm Mode",
RadioSettingValueList(ALMOD_LIST,
ALMOD_LIST[val]))
advanced.append(rs)

rs = RadioSetting("beep", "Beep",
RadioSettingValueBoolean(_settings.beep))
basic.append(rs)

rs = RadioSetting("timeout", "Timeout Timer",
RadioSettingValueList(TIMEOUT_LIST,
TIMEOUT_LIST[
_settings.timeout]))
basic.append(rs)

if self._is_orig() and self._my_version() < 251:
rs = RadioSetting("voice", "Voice",
RadioSettingValueBoolean(_settings.voice))
advanced.append(rs)
else:
rs = RadioSetting("voice", "Voice",
RadioSettingValueList(VOICE_LIST,
VOICE_LIST[
_settings.voice]))
advanced.append(rs)

rs = RadioSetting("screv", "Scan Resume",
RadioSettingValueList(RESUME_LIST,
RESUME_LIST[_settings.screv]))
advanced.append(rs)

if self.MODEL != "UV-6":
rs = RadioSetting("mdfa", "Display Mode (A)",
RadioSettingValueList(MODE_LIST,
MODE_LIST[_settings.mdfa]))
basic.append(rs)

rs = RadioSetting("mdfb", "Display Mode (B)",
RadioSettingValueList(MODE_LIST,
MODE_LIST[_settings.mdfb]))
basic.append(rs)

rs = RadioSetting("bcl", "Busy Channel Lockout",
RadioSettingValueBoolean(_settings.bcl))
advanced.append(rs)

if self.MODEL != "UV-6":
rs = RadioSetting("autolk", "Automatic Key Lock",
RadioSettingValueBoolean(_settings.autolk))
advanced.append(rs)

rs = RadioSetting("fmradio", "Broadcast FM Radio",
RadioSettingValueBoolean(_settings.fmradio))
advanced.append(rs)

if self.MODEL != "UV-6":
rs = RadioSetting("wtled", "Standby LED Color",
RadioSettingValueList(COLOR_LIST,
COLOR_LIST[
_settings.wtled]))
basic.append(rs)

rs = RadioSetting("rxled", "RX LED Color",
RadioSettingValueList(COLOR_LIST,
COLOR_LIST[
_settings.rxled]))
basic.append(rs)

rs = RadioSetting("txled", "TX LED Color",
RadioSettingValueList(COLOR_LIST,
COLOR_LIST[
_settings.txled]))
basic.append(rs)

if self.MODEL == "UV-82":
rs = RadioSetting("roger", "Roger Beep (TX)",
RadioSettingValueBoolean(_settings.roger))
basic.append(rs)
rs = RadioSetting("rogerrx", "Roger Beep (RX)",
RadioSettingValueList(ROGERRX_LIST,
ROGERRX_LIST[
_settings.rogerrx]))
basic.append(rs)
else:
rs = RadioSetting("roger", "Roger Beep",
RadioSettingValueBoolean(_settings.roger))
basic.append(rs)

rs = RadioSetting("ste", "Squelch Tail Eliminate (HT to HT)",
RadioSettingValueBoolean(_settings.ste))
advanced.append(rs)

rs = RadioSetting("rpste", "Squelch Tail Eliminate (repeater)",
RadioSettingValueList(RPSTE_LIST,
RPSTE_LIST[_settings.rpste]))
advanced.append(rs)

rs = RadioSetting("rptrl", "STE Repeater Delay",
RadioSettingValueList(STEDELAY_LIST,
STEDELAY_LIST[_settings.rptrl]))
advanced.append(rs)

if self.MODEL != "UV-6":
rs = RadioSetting("reset", "RESET Menu",
RadioSettingValueBoolean(_settings.reset))
advanced.append(rs)

rs = RadioSetting("menu", "All Menus",
RadioSettingValueBoolean(_settings.menu))
advanced.append(rs)

if self.MODEL == "F-11":
# this is an F-11 only feature
rs = RadioSetting("vfomrlock", "VFO/MR Button",
RadioSettingValueBoolean(_settings.vfomrlock))
advanced.append(rs)

if self.MODEL == "UV-82":
# this is a UV-82C only feature
rs = RadioSetting("vfomrlock", "VFO/MR Switching (UV-82C only)",
RadioSettingValueBoolean(_settings.vfomrlock))
advanced.append(rs)

if self.MODEL == "UV-82":
# this is an UV-82C only feature
rs = RadioSetting("singleptt", "Single PTT (UV-82C only)",
RadioSettingValueBoolean(_settings.singleptt))
advanced.append(rs)

if len(self._mmap.get_packed()) == 0x1808:
# Old image, without aux block
return group

other = RadioSettingGroup("other", "Other Settings")
group.append(other)

def _filter(name):
filtered = ""
for char in str(name):
if char in chirp_common.CHARSET_ASCII:
filtered += char
else:
filtered += " "
return filtered

_msg = self._memobj.firmware_msg
val = RadioSettingValueString(0, 7, _filter(_msg.line1))
val.set_mutable(False)
rs = RadioSetting("firmware_msg.line1", "Firmware Message 1", val)
other.append(rs)

val = RadioSettingValueString(0, 7, _filter(_msg.line2))
val.set_mutable(False)
rs = RadioSetting("firmware_msg.line2", "Firmware Message 2", val)
other.append(rs)

if self.MODEL != "UV-6":
_msg = self._memobj.sixpoweron_msg
rs = RadioSetting("sixpoweron_msg.line1", "6+Power-On Message 1",
RadioSettingValueString(0, 7, _filter(
_msg.line1)))
other.append(rs)
rs = RadioSetting("sixpoweron_msg.line2", "6+Power-On Message 2",
RadioSettingValueString(0, 7, _filter(
_msg.line2)))
other.append(rs)

_msg = self._memobj.poweron_msg
rs = RadioSetting("poweron_msg.line1", "Power-On Message 1",
RadioSettingValueString(0, 7, _filter(
_msg.line1)))
other.append(rs)
rs = RadioSetting("poweron_msg.line2", "Power-On Message 2",
RadioSettingValueString(0, 7, _filter(
_msg.line2)))
other.append(rs)

rs = RadioSetting("ponmsg", "Power-On Message",
RadioSettingValueList(PONMSG_LIST,
PONMSG_LIST[
_settings.ponmsg]))
other.append(rs)

if self._is_orig():
limit = "limits_old"
else:
limit = "limits_new"

vhf_limit = getattr(self._memobj, limit).vhf
rs = RadioSetting("%s.vhf.lower" % limit, "VHF Lower Limit (MHz)",
RadioSettingValueInteger(1, 1000,
vhf_limit.lower))
other.append(rs)

rs = RadioSetting("%s.vhf.upper" % limit, "VHF Upper Limit (MHz)",
RadioSettingValueInteger(1, 1000,
vhf_limit.upper))
other.append(rs)

rs = RadioSetting("%s.vhf.enable" % limit, "VHF TX Enabled",
RadioSettingValueBoolean(vhf_limit.enable))
other.append(rs)

uhf_limit = getattr(self._memobj, limit).uhf
rs = RadioSetting("%s.uhf.lower" % limit, "UHF Lower Limit (MHz)",
RadioSettingValueInteger(1, 1000,
uhf_limit.lower))
other.append(rs)
rs = RadioSetting("%s.uhf.upper" % limit, "UHF Upper Limit (MHz)",
RadioSettingValueInteger(1, 1000,
uhf_limit.upper))
other.append(rs)
rs = RadioSetting("%s.uhf.enable" % limit, "UHF TX Enabled",
RadioSettingValueBoolean(uhf_limit.enable))
other.append(rs)

if self.MODEL != "UV-6":
workmode = RadioSettingGroup("workmode", "Work Mode Settings")
group.append(workmode)

rs = RadioSetting("displayab", "Display",
RadioSettingValueList(AB_LIST,
AB_LIST[
_settings.displayab]))
workmode.append(rs)

rs = RadioSetting("workmode", "VFO/MR Mode",
RadioSettingValueList(WORKMODE_LIST,
WORKMODE_LIST[
_settings.workmode]))
workmode.append(rs)

rs = RadioSetting("keylock", "Keypad Lock",
RadioSettingValueBoolean(_settings.keylock))
workmode.append(rs)

rs = RadioSetting("wmchannel.mrcha", "MR A Channel",
RadioSettingValueInteger(0, 127,
_wmchannel.mrcha))
workmode.append(rs)

rs = RadioSetting("wmchannel.mrchb", "MR B Channel",
RadioSettingValueInteger(0, 127,
_wmchannel.mrchb))
workmode.append(rs)

def convert_bytes_to_freq(bytes):
real_freq = 0
for byte in bytes:
real_freq = (real_freq * 10) + byte
return chirp_common.format_freq(real_freq * 10)

def my_validate(value):
value = chirp_common.parse_freq(value)
if 17400000 <= value and value < 40000000:
msg = ("Can't be between 174.00000-400.00000")
raise InvalidValueError(msg)
return chirp_common.format_freq(value)

def apply_freq(setting, obj):
value = chirp_common.parse_freq(str(setting.value)) / 10
obj.band = value >= 40000000
for i in range(7, -1, -1):
obj.freq[i] = value % 10
value /= 10

val1a = RadioSettingValueString(0, 10,
convert_bytes_to_freq(_vfoa.freq))
val1a.set_validate_callback(my_validate)
rs = RadioSetting("vfoa.freq", "VFO A Frequency", val1a)
rs.set_apply_callback(apply_freq, _vfoa)
workmode.append(rs)

val1b = RadioSettingValueString(0, 10,
convert_bytes_to_freq(_vfob.freq))
val1b.set_validate_callback(my_validate)
rs = RadioSetting("vfob.freq", "VFO B Frequency", val1b)
rs.set_apply_callback(apply_freq, _vfob)
workmode.append(rs)

rs = RadioSetting("vfoa.sftd", "VFO A Shift",
RadioSettingValueList(SHIFTD_LIST,
SHIFTD_LIST[_vfoa.sftd]))
workmode.append(rs)

rs = RadioSetting("vfob.sftd", "VFO B Shift",
RadioSettingValueList(SHIFTD_LIST,
SHIFTD_LIST[_vfob.sftd]))
workmode.append(rs)

def convert_bytes_to_offset(bytes):
real_offset = 0
for byte in bytes:
real_offset = (real_offset * 10) + byte
return chirp_common.format_freq(real_offset * 10000)

def apply_offset(setting, obj):
value = chirp_common.parse_freq(str(setting.value)) / 10000
for i in range(3, -1, -1):
obj.offset[i] = value % 10
value /= 10

val1a = RadioSettingValueString(0, 10,
convert_bytes_to_offset(
_vfoa.offset))
rs = RadioSetting("vfoa.offset", "VFO A Offset (0.00-69.95)", val1a)
rs.set_apply_callback(apply_offset, _vfoa)
workmode.append(rs)

val1b = RadioSettingValueString(0, 10,
convert_bytes_to_offset(
_vfob.offset))
rs = RadioSetting("vfob.offset", "VFO B Offset (0.00-69.95)", val1b)
rs.set_apply_callback(apply_offset, _vfob)
workmode.append(rs)

if self.MODEL == "KT-980HP" or self.MODEL == "BF-F8HP":
rs = RadioSetting("vfoa.txpower3", "VFO A Power",
RadioSettingValueList(TXPOWER3_LIST,
TXPOWER3_LIST[
_vfoa.txpower3]))
workmode.append(rs)

rs = RadioSetting("vfob.txpower3", "VFO B Power",
RadioSettingValueList(TXPOWER3_LIST,
TXPOWER3_LIST[
_vfob.txpower3]))
workmode.append(rs)
else:
rs = RadioSetting("vfoa.txpower", "VFO A Power",
RadioSettingValueList(TXPOWER_LIST,
TXPOWER_LIST[
_vfoa.txpower]))
workmode.append(rs)

rs = RadioSetting("vfob.txpower", "VFO B Power",
RadioSettingValueList(TXPOWER_LIST,
TXPOWER_LIST[
_vfob.txpower]))
workmode.append(rs)


rs = RadioSetting("vfoa.widenarr", "VFO A Bandwidth",
RadioSettingValueList(BANDWIDTH_LIST,
BANDWIDTH_LIST[
_vfoa.widenarr]))
workmode.append(rs)

rs = RadioSetting("vfob.widenarr", "VFO B Bandwidth",
RadioSettingValueList(BANDWIDTH_LIST,
BANDWIDTH_LIST[
_vfob.widenarr]))
workmode.append(rs)

rs = RadioSetting("vfoa.scode", "VFO A PTT-ID",
RadioSettingValueList(PTTIDCODE_LIST,
PTTIDCODE_LIST[
_vfoa.scode]))
workmode.append(rs)

rs = RadioSetting("vfob.scode", "VFO B PTT-ID",
RadioSettingValueList(PTTIDCODE_LIST,
PTTIDCODE_LIST[
_vfob.scode]))
workmode.append(rs)

if not self._is_orig():
rs = RadioSetting("vfoa.step", "VFO A Tuning Step",
RadioSettingValueList(STEP291_LIST,
STEP291_LIST[
_vfoa.step]))
workmode.append(rs)
rs = RadioSetting("vfob.step", "VFO B Tuning Step",
RadioSettingValueList(STEP291_LIST,
STEP291_LIST[
_vfob.step]))
workmode.append(rs)
else:
rs = RadioSetting("vfoa.step", "VFO A Tuning Step",
RadioSettingValueList(STEP_LIST,
STEP_LIST[_vfoa.step]))
workmode.append(rs)
rs = RadioSetting("vfob.step", "VFO B Tuning Step",
RadioSettingValueList(STEP_LIST,
STEP_LIST[_vfob.step]))
workmode.append(rs)

fm_preset = RadioSettingGroup("fm_preset", "FM Radio Preset")
group.append(fm_preset)

if self._memobj.fm_presets <= 116.1 * 10 - 650:
preset = self._memobj.fm_presets / 10.0 + 65
else:
preset = 76.0
rs = RadioSetting("fm_presets", "FM Preset(MHz)",
RadioSettingValueFloat(65, 116.1, preset, 0.1, 1))
fm_preset.append(rs)

dtmf = RadioSettingGroup("dtmf", "DTMF Settings")
group.append(dtmf)
dtmfchars = "0123456789 *#ABCD"

for i in range(0, 15):
_codeobj = self._memobj.pttid[i].code
_code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 5, _code, False)
val.set_charset(dtmfchars)
rs = RadioSetting("pttid/%i.code" % i,
"PTT ID Code %i" % (i + 1), val)
def apply_code(setting, obj):
code = []
for j in range(0, 5):
try:
code.append(dtmfchars.index(str(setting.value)[j]))
except IndexError:
code.append(0xFF)
obj.code = code
rs.set_apply_callback(apply_code, self._memobj.pttid[i])
dtmf.append(rs)

_codeobj = self._memobj.ani.code
_code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 5, _code, False)
val.set_charset(dtmfchars)
rs = RadioSetting("ani.code", "ANI Code", val)
def apply_code(setting, obj):
code = []
for j in range(0, 5):
try:
code.append(dtmfchars.index(str(setting.value)[j]))
except IndexError:
code.append(0xFF)
obj.code = code
rs.set_apply_callback(apply_code, _ani)
dtmf.append(rs)

rs = RadioSetting("ani.aniid", "ANI ID",
RadioSettingValueList(PTTID_LIST,
PTTID_LIST[_ani.aniid]))
dtmf.append(rs)

_codeobj = self._memobj.ani.alarmcode
_code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 3, _code, False)
val.set_charset(dtmfchars)
rs = RadioSetting("ani.alarmcode", "Alarm Code", val)
def apply_code(setting, obj):
alarmcode = []
for j in range(0, 3):
try:
alarmcode.append(dtmfchars.index(str(setting.value)[j]))
except IndexError:
alarmcode.append(0xFF)
obj.alarmcode = alarmcode
rs.set_apply_callback(apply_code, _ani)
dtmf.append(rs)

rs = RadioSetting("dtmfst", "DTMF Sidetone",
RadioSettingValueList(DTMFST_LIST,
DTMFST_LIST[_settings.dtmfst]))
dtmf.append(rs)

if _ani.dtmfon > 0xC3:
val = 0x00
else:
val = _ani.dtmfon
rs = RadioSetting("ani.dtmfon", "DTMF Speed (on)",
RadioSettingValueList(DTMFSPEED_LIST,
DTMFSPEED_LIST[val]))
dtmf.append(rs)

if _ani.dtmfoff > 0xC3:
val = 0x00
else:
val = _ani.dtmfoff
rs = RadioSetting("ani.dtmfoff", "DTMF Speed (off)",
RadioSettingValueList(DTMFSPEED_LIST,
DTMFSPEED_LIST[val]))
dtmf.append(rs)

return group

def get_settings(self):
try:
return self._get_settings()
except:
import traceback
print "Failed to parse settings:"
traceback.print_exc()
return None

def set_settings(self, settings):
_settings = self._memobj.settings
for element in settings:
if not isinstance(element, RadioSetting):
if element.get_name() == "fm_preset" :
self._set_fm_preset(element)
else:
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():
print "Using apply callback"
element.run_apply_callback()
else:
print "Setting %s = %s" % (setting, element.value)
setattr(obj, setting, element.value)
except Exception, e:
print element.get_name()
raise

def _set_fm_preset(self, settings):
for element in settings:
try:
val = element.value
value = int(val.get_value() * 10 - 650)
print "Setting fm_presets = %s" % (value)
self._memobj.fm_presets = value
except Exception, e:
print element.get_name()
raise

@directory.register
class BaofengF11Radio(BaofengUV5R):
VENDOR = "Baofeng"
MODEL = "F-11"
_basetype = BASETYPE_F11
_idents = [UV5R_MODEL_F11]

def _is_orig(self):
# Override this for F11 to always return False
return False

@directory.register
class BaofengUV82Radio(BaofengUV5R):
MODEL = "UV-82"
_basetype = BASETYPE_UV82
_idents = [UV5R_MODEL_UV82]
_vhf_range = (130000000, 176000000)
_uhf_range = (400000000, 521000000)

def _is_orig(self):
# Override this for UV82 to always return False
return False

@directory.register
class BaofengUV6Radio(BaofengUV5R):
"""Baofeng UV-6/UV-7"""
VENDOR = "Baofeng"
MODEL = "UV-6"
_basetype = BASETYPE_UV6
_idents = [UV5R_MODEL_UV6,
UV5R_MODEL_UV6_ORIG
]

def get_features(self):
rf = BaofengUV5R.get_features(self)
rf.memory_bounds = (1, 128)
return rf

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

def _get_nam(self, number):
return self._memobj.names[number - 1]

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

def _set_nam(self, number):
return self._memobj.names[number - 1]

def _is_orig(self):
# Override this for UV6 to always return False
return False

@directory.register
class IntekKT980Radio(BaofengUV5R):
VENDOR = "Intek"
MODEL = "KT-980HP"
_basetype = BASETYPE_KT980HP
_idents = [UV5R_MODEL_291]
_vhf_range = (130000000, 180000000)
_uhf_range = (400000000, 521000000)

def get_features(self):
rf = BaofengUV5R.get_features(self)
rf.valid_power_levels = UV5R_POWER_LEVELS3
return rf

def _is_orig(self):
# Override this for KT980HP to always return False
return False

@directory.register
class BaofengBFF8HPRadio(BaofengUV5R):
VENDOR = "Baofeng"
MODEL = "BF-F8HP"
_basetype = BASETYPE_F8HP
_idents = [UV5R_MODEL_291]
_vhf_range = (130000000, 180000000)
_uhf_range = (400000000, 521000000)

def get_features(self):
rf = BaofengUV5R.get_features(self)
rf.valid_power_levels = UV5R_POWER_LEVELS3
return rf

def _is_orig(self):
# Override this for BFF8HP to always return False
return False
(2-2/2)
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