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# Copyright 2011 Dan Smith <dsmith@danplanet.com>
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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"""Baofeng UV3r radio management module"""
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import time
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import os
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import logging
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from wouxun_common import do_download, do_upload
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from chirp import util, chirp_common, bitwise, errors, directory
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from chirp.settings import RadioSetting, RadioSettingGroup, \
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RadioSettingValueBoolean, RadioSettingValueList, \
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RadioSettingValueInteger, RadioSettingValueString, \
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RadioSettingValueFloat, RadioSettings
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LOG = logging.getLogger(__name__)
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def _uv3r_prep(radio):
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radio.pipe.write("\x05PROGRAM")
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ack = radio.pipe.read(1)
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if ack != "\x06":
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raise errors.RadioError("Radio did not ACK first command")
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radio.pipe.write("\x02")
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ident = radio.pipe.read(8)
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if len(ident) != 8:
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LOG.debug(util.hexprint(ident))
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raise errors.RadioError("Radio did not send identification")
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radio.pipe.write("\x06")
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if radio.pipe.read(1) != "\x06":
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raise errors.RadioError("Radio did not ACK ident")
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def uv3r_prep(radio):
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"""Do the UV3R identification dance"""
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for _i in range(0, 10):
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try:
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return _uv3r_prep(radio)
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except errors.RadioError, e:
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time.sleep(1)
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raise e
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def uv3r_download(radio):
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"""Talk to a UV3R and do a download"""
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try:
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uv3r_prep(radio)
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return do_download(radio, 0x0000, 0x0E40, 0x0010)
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except errors.RadioError:
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raise
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except Exception, e:
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raise errors.RadioError("Failed to communicate with radio: %s" % e)
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def uv3r_upload(radio):
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"""Talk to a UV3R and do an upload"""
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try:
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uv3r_prep(radio)
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return do_upload(radio, 0x0000, 0x0E40, 0x0010)
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except errors.RadioError:
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raise
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except Exception, e:
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raise errors.RadioError("Failed to communicate with radio: %s" % e)
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#the second hex value in unknown is the step
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UV3R_MEM_FORMAT = """
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#seekto 0x0010;
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struct {
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lbcd rx_freq[4];
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u8 rxtone;
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lbcd offset[4];
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u8 txtone;
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u8 ishighpower:1,
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iswide:1,
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dtcsinvt:1,
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unknown1:1,
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dtcsinvr:1,
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unknown2:1,
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duplex:2;
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u8 step;
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lbcd tx_freq[4];
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} tx_memory[99];
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#seekto 0x0780;
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struct {
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lbcd lower_vhf[2];
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lbcd upper_vhf[2];
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lbcd lower_uhf[2];
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lbcd upper_uhf[2];
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} limits;
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struct vfosettings {
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lbcd freq[4];
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u8 rxtone;
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u8 unknown1;
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lbcd offset[3];
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u8 txtone;
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u8 power:1,
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bandwidth:1,
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unknown2:4,
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duplex:2;
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u8 step;
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u8 unknown3[4];
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};
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#seekto 0x0790;
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struct {
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struct vfosettings uhf;
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struct vfosettings vhf;
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} vfo;
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#seekto 0x07C2;
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struct {
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u8 squelch;
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u8 vox;
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u8 timeout;
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u8 save:1,
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unknown_1:1,
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dw:1,
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ste:1,
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beep:1,
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unknown_2:1,
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bclo:1,
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ch_flag:1;
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u8 backlight:2,
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relaym:1,
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scanm:1,
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pri:1,
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unknown_3:3;
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u8 unknown_4[3];
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u8 pri_ch;
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} settings;
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#seekto 0x07E0;
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u16 fm_presets[16];
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#seekto 0x0810;
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struct {
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lbcd rx_freq[4];
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u8 rxtone;
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lbcd offset[4];
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u8 txtone;
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u8 ishighpower:1,
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iswide:1,
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dtcsinvt:1,
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unknown1:1,
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dtcsinvr:1,
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unknown2:1,
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duplex:2;
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u8 step;
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lbcd tx_freq[4];
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} rx_memory[99];
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#seekto 0x1008;
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struct {
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u8 unknown[8];
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u8 name[6];
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u8 pad[2];
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} names[128];
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"""
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STEPS = [5.0, 6.25, 10.0, 12.5, 20.0, 25.0]
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STEP_LIST = [str(x) for x in STEPS]
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BACKLIGHT_LIST = ["Off", "Key", "Continuous"]
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TIMEOUT_LIST = ["Off"] + ["%s sec" % x for x in range(30, 210, 30)]
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SCANM_LIST = ["TO", "CO"]
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PRI_CH_LIST = ["Off"] + ["%s" % x for x in range(1, 100)]
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CH_FLAG_LIST = ["Freq Mode", "Channel Mode"]
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POWER_LIST = ["Low", "High"]
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BANDWIDTH_LIST = ["Narrow", "Wide"]
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DUPLEX_LIST = ["Off", "-", "+"]
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STE_LIST = ["On", "Off"]
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UV3R_DUPLEX = ["", "-", "+", ""]
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UV3R_POWER_LEVELS = [chirp_common.PowerLevel("High", watts=2.00),
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chirp_common.PowerLevel("Low", watts=0.50)]
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UV3R_DTCS_POL = ["NN", "NR", "RN", "RR"]
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@directory.register
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class UV3RRadio(chirp_common.CloneModeRadio):
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"""Baofeng UV-3R"""
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VENDOR = "Baofeng"
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MODEL = "UV-3R"
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def get_features(self):
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rf = chirp_common.RadioFeatures()
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rf.has_settings = True
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rf.valid_tmodes = ["", "Tone", "TSQL", "DTCS", "Cross"]
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rf.valid_modes = ["FM", "NFM"]
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rf.valid_power_levels = UV3R_POWER_LEVELS
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rf.valid_bands = [(136000000, 235000000), (400000000, 529000000)]
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rf.valid_skips = []
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rf.valid_duplexes = ["", "-", "+", "split"]
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rf.valid_cross_modes = ["Tone->Tone", "Tone->DTCS", "DTCS->Tone",
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"->Tone", "->DTCS"]
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rf.valid_tuning_steps = [5.0, 6.25, 10.0, 12.5, 20.0, 25.0]
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rf.has_ctone = True
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rf.has_cross = True
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rf.has_tuning_step = True
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rf.has_bank = False
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rf.has_name = False
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rf.can_odd_split = True
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rf.memory_bounds = (1, 99)
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return rf
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def sync_in(self):
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self._mmap = uv3r_download(self)
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self.process_mmap()
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def sync_out(self):
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uv3r_upload(self)
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def process_mmap(self):
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self._memobj = bitwise.parse(UV3R_MEM_FORMAT, self._mmap)
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def get_memory(self, number):
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_mem = self._memobj.rx_memory[number - 1]
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mem = chirp_common.Memory()
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mem.number = number
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if _mem.get_raw()[0] == "\xff":
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mem.empty = True
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return mem
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mem.freq = int(_mem.rx_freq) * 10
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mem.offset = int(_mem.offset) * 1000
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mem.duplex = UV3R_DUPLEX[_mem.duplex]
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if mem.offset > 60000000:
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if mem.duplex == "+":
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mem.offset = mem.freq + mem.offset
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elif mem.duplex == "-":
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mem.offset = mem.freq - mem.offset
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mem.duplex = "split"
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mem.power = UV3R_POWER_LEVELS[1 - _mem.ishighpower]
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if not _mem.iswide:
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mem.mode = "NFM"
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dtcspol = (int(_mem.dtcsinvt) << 1) + _mem.dtcsinvr
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mem.dtcs_polarity = UV3R_DTCS_POL[dtcspol]
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if _mem.txtone in [0, 0xFF]:
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txmode = ""
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elif _mem.txtone < 0x33:
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mem.rtone = chirp_common.TONES[_mem.txtone - 1]
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txmode = "Tone"
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elif _mem.txtone >= 0x33:
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tcode = chirp_common.DTCS_CODES[_mem.txtone - 0x33]
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mem.dtcs = tcode
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txmode = "DTCS"
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else:
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LOG.warn("Bug: tx_mode is %02x" % _mem.txtone)
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if _mem.rxtone in [0, 0xFF]:
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rxmode = ""
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elif _mem.rxtone < 0x33:
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mem.ctone = chirp_common.TONES[_mem.rxtone - 1]
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rxmode = "Tone"
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elif _mem.rxtone >= 0x33:
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rcode = chirp_common.DTCS_CODES[_mem.rxtone - 0x33]
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mem.dtcs = rcode
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rxmode = "DTCS"
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else:
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LOG.warn("Bug: rx_mode is %02x" % _mem.rxtone)
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if txmode == "Tone" and not rxmode:
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mem.tmode = "Tone"
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elif txmode == rxmode and txmode == "Tone" and mem.rtone == mem.ctone:
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mem.tmode = "TSQL"
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elif txmode == rxmode and txmode == "DTCS":
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mem.tmode = "DTCS"
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elif rxmode or txmode:
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mem.tmode = "Cross"
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mem.cross_mode = "%s->%s" % (txmode, rxmode)
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mem.tuning_step = chirp_common.TUNING_STEPS[_mem.step]
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return mem
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def _set_tone(self, _mem, which, value, mode):
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if mode == "Tone":
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val = chirp_common.TONES.index(value) + 1
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elif mode == "DTCS":
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val = chirp_common.DTCS_CODES.index(value) + 0x33
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elif mode == "":
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val = 0
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else:
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raise errors.RadioError("Internal error: tmode %s" % mode)
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setattr(_mem, which, val)
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def _set_memory(self, mem, _mem):
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if mem.empty:
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_mem.set_raw("\xff" * 16)
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return
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_mem.rx_freq = mem.freq / 10
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if mem.duplex == "split":
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diff = mem.freq - mem.offset
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_mem.offset = abs(diff) / 1000
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_mem.duplex = UV3R_DUPLEX.index(diff < 0 and "+" or "-")
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for i in range(0, 4):
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_mem.tx_freq[i].set_raw("\xFF")
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elif mem.duplex == "+":
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_mem.offset = mem.offset / 1000
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_mem.duplex = UV3R_DUPLEX.index(mem.duplex)
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_mem.tx_freq = (mem.freq + mem.offset) / 10
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elif mem.duplex == "-":
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_mem.offset = mem.offset / 1000
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_mem.duplex = UV3R_DUPLEX.index(mem.duplex)
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_mem.tx_freq = (mem.freq - mem.offset) / 10
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elif mem.duplex == "":
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_mem.offset = mem.offset / 1000
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_mem.duplex = UV3R_DUPLEX.index(mem.duplex)
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_mem.tx_freq = (mem.freq) / 10
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_mem.ishighpower = mem.power == UV3R_POWER_LEVELS[0]
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_mem.iswide = mem.mode == "FM"
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_mem.dtcsinvt = mem.dtcs_polarity[0] == "R"
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_mem.dtcsinvr = mem.dtcs_polarity[1] == "R"
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rxtone = txtone = 0
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rxmode = txmode = ""
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if mem.tmode == "DTCS":
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rxmode = txmode = "DTCS"
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rxtone = txtone = mem.dtcs
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elif mem.tmode and mem.tmode != "Cross":
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rxtone = txtone = mem.tmode == "Tone" and mem.rtone or mem.ctone
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txmode = "Tone"
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rxmode = mem.tmode == "TSQL" and "Tone" or ""
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elif mem.tmode == "Cross":
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txmode, rxmode = mem.cross_mode.split("->", 1)
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if txmode == "DTCS":
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txtone = mem.dtcs
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elif txmode == "Tone":
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txtone = mem.rtone
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if rxmode == "DTCS":
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rxtone = mem.dtcs
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elif rxmode == "Tone":
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rxtone = mem.ctone
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self._set_tone(_mem, "txtone", txtone, txmode)
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self._set_tone(_mem, "rxtone", rxtone, rxmode)
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_mem.step = chirp_common.TUNING_STEPS.index(mem.tuning_step)
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def set_memory(self, mem):
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_tmem = self._memobj.tx_memory[mem.number - 1]
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_rmem = self._memobj.rx_memory[mem.number - 1]
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self._set_memory(mem, _tmem)
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self._set_memory(mem, _rmem)
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def get_settings(self):
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_settings = self._memobj.settings
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_vfo = self._memobj.vfo
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basic = RadioSettingGroup("basic", "Basic Settings")
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group = RadioSettings(basic)
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rs = RadioSetting("squelch", "Squelch Level",
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RadioSettingValueInteger(0, 9, _settings.squelch))
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basic.append(rs)
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rs = RadioSetting("backlight", "LCD Back Light",
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RadioSettingValueList(
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BACKLIGHT_LIST,
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BACKLIGHT_LIST[_settings.backlight]))
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basic.append(rs)
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rs = RadioSetting("beep", "Keypad Beep",
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RadioSettingValueBoolean(_settings.beep))
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basic.append(rs)
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rs = RadioSetting("vox", "VOX Level (0=OFF)",
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RadioSettingValueInteger(0, 9, _settings.vox))
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basic.append(rs)
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rs = RadioSetting("dw", "Dual Watch",
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RadioSettingValueBoolean(_settings.dw))
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basic.append(rs)
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rs = RadioSetting("ste", "Squelch Tail Eliminate",
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RadioSettingValueList(
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STE_LIST, STE_LIST[_settings.ste]))
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basic.append(rs)
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rs = RadioSetting("save", "Battery Saver",
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RadioSettingValueBoolean(_settings.save))
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basic.append(rs)
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rs = RadioSetting("timeout", "Time Out Timer",
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RadioSettingValueList(
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TIMEOUT_LIST, TIMEOUT_LIST[_settings.timeout]))
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basic.append(rs)
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rs = RadioSetting("scanm", "Scan Mode",
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RadioSettingValueList(
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SCANM_LIST, SCANM_LIST[_settings.scanm]))
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basic.append(rs)
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rs = RadioSetting("relaym", "Repeater Sound Response",
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RadioSettingValueBoolean(_settings.relaym))
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basic.append(rs)
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rs = RadioSetting("bclo", "Busy Channel Lock Out",
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RadioSettingValueBoolean(_settings.bclo))
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basic.append(rs)
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rs = RadioSetting("pri", "Priority Channel Scanning",
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RadioSettingValueBoolean(_settings.pri))
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basic.append(rs)
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rs = RadioSetting("pri_ch", "Priority Channel",
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RadioSettingValueList(
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PRI_CH_LIST, PRI_CH_LIST[_settings.pri_ch]))
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basic.append(rs)
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rs = RadioSetting("ch_flag", "Display Mode",
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RadioSettingValueList(
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CH_FLAG_LIST, CH_FLAG_LIST[_settings.ch_flag]))
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basic.append(rs)
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_limit = int(self._memobj.limits.lower_vhf) / 10
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if _limit < 115 or _limit > 239:
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_limit = 144
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rs = RadioSetting("limits.lower_vhf", "VHF Lower Limit (115-239 MHz)",
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RadioSettingValueInteger(115, 235, _limit))
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def apply_limit(setting, obj):
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value = int(setting.value) * 10
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obj.lower_vhf = value
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rs.set_apply_callback(apply_limit, self._memobj.limits)
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basic.append(rs)
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_limit = int(self._memobj.limits.upper_vhf) / 10
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if _limit < 115 or _limit > 239:
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_limit = 146
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rs = RadioSetting("limits.upper_vhf", "VHF Upper Limit (115-239 MHz)",
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RadioSettingValueInteger(115, 235, _limit))
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def apply_limit(setting, obj):
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value = int(setting.value) * 10
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obj.upper_vhf = value
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rs.set_apply_callback(apply_limit, self._memobj.limits)
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basic.append(rs)
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_limit = int(self._memobj.limits.lower_uhf) / 10
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if _limit < 200 or _limit > 529:
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_limit = 420
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rs = RadioSetting("limits.lower_uhf", "UHF Lower Limit (200-529 MHz)",
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RadioSettingValueInteger(200, 529, _limit))
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def apply_limit(setting, obj):
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value = int(setting.value) * 10
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obj.lower_uhf = value
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rs.set_apply_callback(apply_limit, self._memobj.limits)
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basic.append(rs)
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_limit = int(self._memobj.limits.upper_uhf) / 10
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if _limit < 200 or _limit > 529:
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_limit = 450
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rs = RadioSetting("limits.upper_uhf", "UHF Upper Limit (200-529 MHz)",
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RadioSettingValueInteger(200, 529, _limit))
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def apply_limit(setting, obj):
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value = int(setting.value) * 10
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obj.upper_uhf = value
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rs.set_apply_callback(apply_limit, self._memobj.limits)
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basic.append(rs)
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vfo_preset = RadioSettingGroup("vfo_preset", "VFO Presets")
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group.append(vfo_preset)
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def convert_bytes_to_freq(bytes):
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real_freq = 0
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real_freq = bytes
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return chirp_common.format_freq(real_freq * 10)
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|
|
def apply_vhf_freq(setting, obj):
|
|
value = chirp_common.parse_freq(str(setting.value)) / 10
|
|
obj.vhf.freq = value
|
|
|
|
val = RadioSettingValueString(
|
|
0, 10, convert_bytes_to_freq(int(_vfo.vhf.freq)))
|
|
rs = RadioSetting("vfo.vhf.freq",
|
|
"VHF RX Frequency (115.00000-236.00000)", val)
|
|
rs.set_apply_callback(apply_vhf_freq, _vfo)
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.vhf.duplex", "Shift Direction",
|
|
RadioSettingValueList(
|
|
DUPLEX_LIST, DUPLEX_LIST[_vfo.vhf.duplex]))
|
|
vfo_preset.append(rs)
|
|
|
|
def convert_bytes_to_offset(bytes):
|
|
real_offset = 0
|
|
real_offset = bytes
|
|
return chirp_common.format_freq(real_offset * 10000)
|
|
|
|
def apply_vhf_offset(setting, obj):
|
|
value = chirp_common.parse_freq(str(setting.value)) / 10000
|
|
obj.vhf.offset = value
|
|
|
|
val = RadioSettingValueString(
|
|
0, 10, convert_bytes_to_offset(int(_vfo.vhf.offset)))
|
|
rs = RadioSetting("vfo.vhf.offset", "Offset (0.00-37.995)", val)
|
|
rs.set_apply_callback(apply_vhf_offset, _vfo)
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.vhf.power", "Power Level",
|
|
RadioSettingValueList(
|
|
POWER_LIST, POWER_LIST[_vfo.vhf.power]))
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.vhf.bandwidth", "Bandwidth",
|
|
RadioSettingValueList(
|
|
BANDWIDTH_LIST,
|
|
BANDWIDTH_LIST[_vfo.vhf.bandwidth]))
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.vhf.step", "Step",
|
|
RadioSettingValueList(
|
|
STEP_LIST, STEP_LIST[_vfo.vhf.step]))
|
|
vfo_preset.append(rs)
|
|
|
|
def apply_uhf_freq(setting, obj):
|
|
value = chirp_common.parse_freq(str(setting.value)) / 10
|
|
obj.uhf.freq = value
|
|
|
|
val = RadioSettingValueString(
|
|
0, 10, convert_bytes_to_freq(int(_vfo.uhf.freq)))
|
|
rs = RadioSetting("vfo.uhf.freq",
|
|
"UHF RX Frequency (200.00000-529.00000)", val)
|
|
rs.set_apply_callback(apply_uhf_freq, _vfo)
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.uhf.duplex", "Shift Direction",
|
|
RadioSettingValueList(
|
|
DUPLEX_LIST, DUPLEX_LIST[_vfo.uhf.duplex]))
|
|
vfo_preset.append(rs)
|
|
|
|
def apply_uhf_offset(setting, obj):
|
|
value = chirp_common.parse_freq(str(setting.value)) / 10000
|
|
obj.uhf.offset = value
|
|
|
|
val = RadioSettingValueString(
|
|
0, 10, convert_bytes_to_offset(int(_vfo.uhf.offset)))
|
|
rs = RadioSetting("vfo.uhf.offset", "Offset (0.00-69.995)", val)
|
|
rs.set_apply_callback(apply_uhf_offset, _vfo)
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.uhf.power", "Power Level",
|
|
RadioSettingValueList(
|
|
POWER_LIST, POWER_LIST[_vfo.uhf.power]))
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.uhf.bandwidth", "Bandwidth",
|
|
RadioSettingValueList(
|
|
BANDWIDTH_LIST,
|
|
BANDWIDTH_LIST[_vfo.uhf.bandwidth]))
|
|
vfo_preset.append(rs)
|
|
|
|
rs = RadioSetting("vfo.uhf.step", "Step",
|
|
RadioSettingValueList(
|
|
STEP_LIST, STEP_LIST[_vfo.uhf.step]))
|
|
vfo_preset.append(rs)
|
|
|
|
fm_preset = RadioSettingGroup("fm_preset", "FM Radio Presets")
|
|
group.append(fm_preset)
|
|
|
|
for i in range(0, 16):
|
|
if self._memobj.fm_presets[i] < 0x01AF:
|
|
used = True
|
|
preset = self._memobj.fm_presets[i] / 10.0 + 65
|
|
else:
|
|
used = False
|
|
preset = 65
|
|
rs = RadioSetting("fm_presets_%1i" % i, "FM Preset %i" % (i + 1),
|
|
RadioSettingValueBoolean(used),
|
|
RadioSettingValueFloat(65, 108, preset, 0.1, 1))
|
|
fm_preset.append(rs)
|
|
|
|
return group
|
|
|
|
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():
|
|
LOG.debug("Using apply callback")
|
|
element.run_apply_callback()
|
|
else:
|
|
LOG.debug("Setting %s = %s" % (setting, element.value))
|
|
setattr(obj, setting, element.value)
|
|
except Exception, e:
|
|
LOG.debug(element.get_name())
|
|
raise
|
|
|
|
def _set_fm_preset(self, settings):
|
|
for element in settings:
|
|
try:
|
|
index = (int(element.get_name().split("_")[-1]))
|
|
val = element.value
|
|
if val[0].get_value():
|
|
value = int(val[1].get_value() * 10 - 650)
|
|
else:
|
|
value = 0x01AF
|
|
LOG.debug("Setting fm_presets[%1i] = %s" % (index, value))
|
|
setting = self._memobj.fm_presets
|
|
setting[index] = value
|
|
except Exception, e:
|
|
LOG.debug(element.get_name())
|
|
raise
|
|
|
|
@classmethod
|
|
def match_model(cls, filedata, filename):
|
|
return len(filedata) == 3648
|
|
|
|
def get_raw_memory(self, number):
|
|
_rmem = self._memobj.tx_memory[number - 1]
|
|
_tmem = self._memobj.rx_memory[number - 1]
|
|
return repr(_rmem) + repr(_tmem)
|