# HG changeset patch # User Tom Hayward tom@tomh.us # Date 1339448552 21600 # Node ID 6e9c0aaceccaa4c903c7042dd8b519c1395df84b # Parent cd4dcc250069ca173704d34b46b6e45b289b1f35 [ts2000] Adds Kenwood TS-2000 support
diff -r cd4dcc250069 -r 6e9c0aacecca chirp/kenwood_live.py --- a/chirp/kenwood_live.py Sun Jun 10 12:09:47 2012 -0600 +++ b/chirp/kenwood_live.py Mon Jun 11 15:02:32 2012 -0600 @@ -1084,6 +1084,190 @@ def _cmd_set_memory_name(self, number, name): return "MN", "%03i,%s" % (number, name)
+ +TS2000_SSB_STEPS = [1.0, 2.5, 5.0, 10.0] +TS2000_FM_STEPS = [5.0, 6.25, 10.0, 12.5, 15.0, 20.0, 25.0, 30.0, 50.0, 100.0] +TS2000_DUPLEX = dict(DUPLEX) +TS2000_DUPLEX[3] = "=" +TS2000_DUPLEX[4] = "split" +TS2000_MODES = ["?", "LSB", "USB", "CW", "FM", "AM", + "FSK", "CR-R", "?", "FSK-R"] +TS2000_TMODES = ["", "Tone", "TSQL", "DTCS"] +TS2000_TONES = list(OLD_TONES) +TS2000_TONES.remove(69.3) + +@directory.register +class TS2000Radio(KenwoodLiveRadio): + """Kenwood TS-2000""" + MODEL = "TS-2000" + + _upper = 289 + _kenwood_split = True + _kenwood_valid_tones = list(TS2000_TONES) + + def get_features(self): + rf = chirp_common.RadioFeatures() + rf.has_dtcs_polarity = False + rf.has_bank = False + rf.can_odd_split = True + rf.valid_modes = ["LSB", "USB", "CW", "FM", "AM"] + rf.valid_tmodes = list(TS2000_TMODES) + rf.valid_tuning_steps = set(TS2000_SSB_STEPS + TS2000_FM_STEPS) + rf.valid_bands = [(1000, 1300000000)] + rf.valid_skips = ["", "S"] + rf.valid_duplexes = TS2000_DUPLEX.values() + rf.valid_characters = chirp_common.CHARSET_ALPHANUMERIC + rf.valid_name_length = 7 + rf.memory_bounds = (0, self._upper) + return rf + + def _cmd_set_memory(self, number, spec): + return "MW0%03i%s;" % (number, spec) + + def _cmd_get_memory(self, number): + return "MR0%03i;" % number + + def _cmd_get_split(self, number): + return "MR1%03i;" % number + + def _cmd_set_split(self, number, spec): + return "MW1%03i%s;" % (number, spec) + + def get_memory(self, number): + if number < 0 or number > self._upper: + raise errors.InvalidMemoryLocation( \ + "Number must be between 0 and %i" % self._upper) + if self.__memcache.has_key(number) and not NOCACHE: + return self.__memcache[number] + + result = command(self.pipe, *self._cmd_get_memory(number)) + if result == "N": + mem = chirp_common.Memory() + mem.number = number + mem.empty = True + self.__memcache[mem.number] = mem + return mem + + spec = result[2:] + + mem = self._parse_mem_spec(result) + self.__memcache[mem.number] = mem + + # FIXME + if mem.duplex == "" and self._kenwood_split: + result = command(self.pipe, *self._cmd_get_split(number)) + if " " in result: + value = result.split(" ", 1)[1] + self._parse_split_spec(mem, value.split(",")) + + return mem + + def _parse_mem_spec(self, spec): + mem = chirp_common.Memory() + + # pad string so indexes match Kenwood docs + spec = " " + spec + + # use the same variable names as the Kenwood docs + _p1 = spec[3] + _p2 = spec[4] + _p3 = spec[5:7] + _p4 = spec[7:18] + _p5 = spec[18] + _p6 = spec[19] + _p7 = spec[20] + _p8 = spec[21:23] + _p9 = spec[23:25] + _p10 = spec[25:28] + _p11 = spec[28] + _p12 = spec[29] + _p13 = spec[30:39] + _p14 = spec[39:41] + _p15 = spec[41] + _p16 = spec[42:49] + + mem.number = int(_p2 + _p3) # concat bank num and chan num + mem.freq = int(_p4) + mem.mode = TS2000_MODES[int(_p5)] + mem.skip = ["", "S"][int(_p6)] + mem.tmode = TS2000_TMODES[int(_p7)] + mem.rtone = self._kenwood_valid_tones[int(_p8) - 1] + mem.ctone = self._kenwood_valid_tones[int(_p9) - 1] + mem.dtcs = chirp_common.DTCS_CODES[int(_p10) - 1] + mem.duplex = TS2000_DUPLEX[int(_p12)] + mem.offset = int(_p13) # 9-digit + if mem.mode in ["AM", "FM"]: + mem.tuning_step = TS2000_FM_STEPS[int(_p14)] + else: + mem.tuning_step = TS2000_SSB_STEPS[int(_p14)] + mem.name = _p16 + + return mem + + def set_memory(self, memory): + if memory.number < 0 or memory.number > self._upper: + raise errors.InvalidMemoryLocation( \ + "Number must be between 0 and %i" % self._upper) + + spec = self._make_mem_spec(memory) + spec = "".join(spec) + r1 = command(self.pipe, *self._cmd_set_memory(memory.number, spec)) + if not iserr(r1): + time.sleep(0.5) + r2 = command(self.pipe, *self._cmd_set_memory_name(memory.number, + memory.name)) + if not iserr(r2): + memory.name = memory.name.rstrip() + self.__memcache[memory.number] = memory + else: + raise errors.InvalidDataError("Radio refused name %i: %s" %\ + (memory.number, + repr(memory.name))) + else: + raise errors.InvalidDataError("Radio refused %i" % memory.number) + + # FIXME + if memory.duplex == "split" and self._kenwood_split: + spec = "".join(self._make_split_spec(memory)) + result = command(self.pipe, *self._cmd_set_split(memory.number, + spec)) + if iserr(result): + raise errors.InvalidDataError("Radio refused %i" % \ + memory.number) + + def _make_mem_spec(self, mem): + if mem.duplex in " +-": + duplex = util.get_dict_rev(TS2000_DUPLEX, mem.duplex) + offset = mem.offset + elif mem.duplex == "split": + duplex = 0 + offset = 0 + else: + print "Bug: unsupported duplex `%s'" % mem.duplex + if mem.mode in ["AM", "FM"]: + step = TS2000_FM_STEPS.index(mem.tuning_step) + else: + step = TS2000_SSB_STEPS.index(mem.tuning_step) + spec = ( \ + "0", + "%03i" % mem.number + "%011i" % mem.freq, + "%i" % (TS2000_MODES.index(mem.mode)), + "%i" % (mem.skip == "S"), + "%i" % TS2000_TMODES.index(mem.tmode), + "%02i" % (self._kenwood_valid_tones.index(mem.rtone)), + "%02i" % (self._kenwood_valid_tones.index(mem.ctone)), + "%03i" % (chirp_common.DTCS_CODES.index(mem.dtcs)), + "0", # REVERSE status + "%i" % duplex, + "%09i" % offset, + "%i" % step, + "0", # Memory Group number (0-9) + "%s" % mem.name, + ) + + return spec + def do_test(): """Dev test""" mem = chirp_common.Memory()