def ch_number(self): for n in nimmanager.nim_slots: if n.isCompatible("DVB-T"): channel = channelnumbers.getChannelNumber(self.freq(), n.slot) if channel: return _("CH") + "%s" % channel return ""
def ch_number(self): for n in nimmanager.nim_slots: if n.isCompatible('DVB-T'): channel = channelnumbers.getChannelNumber(self.freq(), n.slot) if channel: return _('CH') + '%s' % channel return ''
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg["tuner_type"] == "DVB-S": t2mi = lambda x: None if x == -1 else str(x) return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), (_("Pilot"), frontendData.get("pilot", None), TYPE_TEXT), (_("Roll-off"), frontendData.get("rolloff", None), TYPE_TEXT), (_("Input Stream ID"), frontendData.get("is_id", 0), TYPE_VALUE_DEC), (_("PLS Mode"), frontendData.get("pls_mode", None), TYPE_TEXT), (_("PLS Code"), frontendData.get("pls_code", 0), TYPE_VALUE_DEC), (_("T2MI PLP ID"), t2mi(frontendData.get("t2mi_plp_id", -1)), TYPE_TEXT), (_("T2MI PID"), None if frontendData.get("t2mi_plp_id", -1) == -1 else str(frontendData.get("t2mi_pid", eDVBFrontendParametersSatellite.T2MI_Default_Pid)), TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-C": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-T": channel = channelnumbers.getChannelNumber(frontendDataOrg["frequency"], frontendDataOrg["tuner_number"]) if channelnumbers.supportedChannels(frontendDataOrg["tuner_number"]) else None return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Channel"), channel, TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("Code rate LP"), frontendData["code_rate_lp"], TYPE_TEXT), (_("Code rate HP"), frontendData["code_rate_hp"], TYPE_TEXT), (_("Constellation"), frontendData["constellation"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("Hierarchy info"), frontendData["hierarchy_information"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "ATSC": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT)) return [ ]
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg["tuner_type"] == "DVB-S": t2mi = lambda x: None if x == -1 else str(x) return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData.get("frequency", 0), TYPE_VALUE_FREQ_FLOAT), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), (_("Pilot"), frontendData.get("pilot", None), TYPE_TEXT), (_("Roll-off"), frontendData.get("rolloff", None), TYPE_TEXT), (_("Input Stream ID"), frontendData.get("is_id", 0), TYPE_VALUE_DEC), (_("PLS Mode"), frontendData.get("pls_mode", None), TYPE_TEXT), (_("PLS Code"), frontendData.get("pls_code", 0), TYPE_VALUE_DEC), (_("T2MI PLP ID"), t2mi(frontendData.get("t2mi_plp_id", -1)), TYPE_TEXT), (_("T2MI PID"), None if frontendData.get("t2mi_plp_id", -1) == -1 else str(frontendData.get("t2mi_pid", eDVBFrontendParametersSatellite.T2MI_Default_Pid)), TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-C": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-T": channel = channelnumbers.getChannelNumber(frontendDataOrg["frequency"], frontendDataOrg["tuner_number"]) if channelnumbers.supportedChannels(frontendDataOrg["tuner_number"]) else None return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Channel"), channel, TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("Code rate LP"), frontendData["code_rate_lp"], TYPE_TEXT), (_("Code rate HP"), frontendData["code_rate_hp"], TYPE_TEXT), (_("Constellation"), frontendData["constellation"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("Hierarchy info"), frontendData["hierarchy_information"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "ATSC": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT)) return []
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg["tuner_type"] == "DVB-S": return ( (_("NIM"), chr(ord("A") + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), (_("Pilot"), frontendData.get("pilot", None), TYPE_TEXT), (_("Roll-off"), frontendData.get("rolloff", None), TYPE_TEXT), ) elif frontendDataOrg["tuner_type"] == "DVB-C": return ( (_("NIM"), chr(ord("A") + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), ) elif frontendDataOrg["tuner_type"] == "DVB-T": channel = ( channelnumbers.getChannelNumber(frontendDataOrg["frequency"], frontendDataOrg["tuner_number"]) if channelnumbers.supportedChannels(frontendDataOrg["tuner_number"]) else None ) return ( (_("NIM"), chr(ord("A") + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Channel"), channel, TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("Code rate LP"), frontendData["code_rate_lp"], TYPE_TEXT), (_("Code rate HP"), frontendData["code_rate_hp"], TYPE_TEXT), (_("Constellation"), frontendData["constellation"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("Hierarchy info"), frontendData["hierarchy_information"], TYPE_TEXT), ) return []
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg['tuner_type'] == 'DVB-S': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('System'), frontendData['system'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Orbital position'), frontendData['orbital_position'], TYPE_VALUE_DEC), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Polarization'), frontendData['polarization'], TYPE_TEXT), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT), (_('Pilot'), frontendData.get('pilot', None), TYPE_TEXT), (_('Roll-off'), frontendData.get('rolloff', None), TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-C': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-T': channel = channelnumbers.getChannelNumber(frontendDataOrg['frequency'], frontendDataOrg['tuner_number']) if channelnumbers.supportedChannels(frontendDataOrg['tuner_number']) else None return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Channel'), channel, TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('Bandwidth'), frontendData['bandwidth'], TYPE_VALUE_DEC), (_('Code rate LP'), frontendData['code_rate_lp'], TYPE_TEXT), (_('Code rate HP'), frontendData['code_rate_hp'], TYPE_TEXT), (_('Constellation'), frontendData['constellation'], TYPE_TEXT), (_('Transmission mode'), frontendData['transmission_mode'], TYPE_TEXT), (_('Guard interval'), frontendData['guard_interval'], TYPE_TEXT), (_('Hierarchy info'), frontendData['hierarchy_information'], TYPE_TEXT)) return []
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg["tuner_type"] == "DVB-S": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), (_("Pilot"), frontendData.get("pilot", None), TYPE_TEXT), (_("Roll-off"), frontendData.get("rolloff", None), TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-C": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-T": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Channel"), channelnumbers.getChannelNumber(frontendData["frequency"], frontendData["tuner_number"]), TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("Code rate LP"), frontendData["code_rate_lp"], TYPE_TEXT), (_("Code rate HP"), frontendData["code_rate_hp"], TYPE_TEXT), (_("Constellation"), frontendData["constellation"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("Hierarchy info"), frontendData["hierarchy_information"], TYPE_TEXT)) return [ ]
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg['tuner_type'] == 'DVB-S': t2mi = lambda x: (None if x == -1 else str(x)) return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('System'), frontendData['system'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Orbital position'), frontendData['orbital_position'], TYPE_VALUE_DEC), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Polarization'), frontendData['polarization'], TYPE_TEXT), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT), (_('Pilot'), frontendData.get('pilot', None), TYPE_TEXT), (_('Roll-off'), frontendData.get('rolloff', None), TYPE_TEXT), (_('Input Stream ID'), frontendData.get('is_id', 0), TYPE_VALUE_DEC), (_('PLS Mode'), frontendData.get('pls_mode', None), TYPE_TEXT), (_('PLS Code'), frontendData.get('pls_code', 0), TYPE_VALUE_DEC), (_('T2MI PLP ID'), t2mi(frontendData.get('t2mi_plp_id', -1)), TYPE_TEXT), (_('T2MI PID'), None if frontendData.get('t2mi_plp_id', -1) == -1 else str( frontendData.get( 't2mi_pid', eDVBFrontendParametersSatellite. T2MI_Default_Pid)), TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-C': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-T': channel = channelnumbers.getChannelNumber( frontendDataOrg['frequency'], frontendDataOrg['tuner_number'] ) if channelnumbers.supportedChannels( frontendDataOrg['tuner_number']) else None return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Channel'), channel, TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('Bandwidth'), frontendData['bandwidth'], TYPE_VALUE_DEC), (_('Code rate LP'), frontendData['code_rate_lp'], TYPE_TEXT), (_('Code rate HP'), frontendData['code_rate_hp'], TYPE_TEXT), (_('Constellation'), frontendData['constellation'], TYPE_TEXT), (_('Transmission mode'), frontendData['transmission_mode'], TYPE_TEXT), (_('Guard interval'), frontendData['guard_interval'], TYPE_TEXT), (_('Hierarchy info'), frontendData['hierarchy_information'], TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'ATSC': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('System'), frontendData['system'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT)) return []
def createChannelNumber(self, fedata, feraw): channel = channelnumbers.getChannelNumber(feraw.get('frequency'), feraw.get('tuner_number')) if channel: return _('CH') + '%s' % channel return ''
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg["tuner_type"] == "DVB-S" and frontendData["system"] == "DVB-S2": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT), (_("Pilot"), frontendData.get("pilot", None), TYPE_TEXT), (_("Roll-off"), frontendData.get("rolloff", None), TYPE_TEXT), (_("Input Stream ID"), frontendData["is_id"], TYPE_VALUE_DEC), (_("PLS Mode"), frontendData["pls_mode"], TYPE_TEXT), (_("PLS Code"), frontendData["pls_code"], TYPE_VALUE_DEC)) elif frontendDataOrg["tuner_type"] == "DVB-S" and frontendData["system"] == "DVB-S": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Orbital position"), frontendData["orbital_position"], TYPE_VALUE_DEC), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Symbol rate"), frontendData["symbol_rate"], TYPE_VALUE_DEC), (_("Polarization"), frontendData["polarization"], TYPE_TEXT), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-C": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("Modulation"), frontendData["modulation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"], TYPE_VALUE_DEC), (_("Channel"), channelnumbers.getChannelNumber(frontendData["frequency"], frontendData["tuner_number"]), TYPE_VALUE_DEC), (_("Inversion"), frontendData["inversion"], TYPE_TEXT), (_("FEC"), frontendData["fec_inner"], TYPE_TEXT)) elif frontendDataOrg["tuner_type"] == "DVB-T" and frontendData["system"] == "DVB-T2": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["constellation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"]/1000, TYPE_VALUE_DEC), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("FEC"), frontendData["code_rate_hp"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("PLP ID"), frontendData["plp_id"], TYPE_VALUE_DEC)) elif frontendDataOrg["tuner_type"] == "DVB-T" and frontendData["system"] == "DVB-T": return ((_("NIM"), chr(ord('A') + frontendData["tuner_number"]), TYPE_TEXT), (_("Type"), frontendData["tuner_type"], TYPE_TEXT), (_("System"), frontendData["system"], TYPE_TEXT), (_("Modulation"), frontendData["constellation"], TYPE_TEXT), (_("Frequency"), frontendData["frequency"]/1000, TYPE_VALUE_DEC), (_("Bandwidth"), frontendData["bandwidth"], TYPE_VALUE_DEC), (_("FEC HP"), frontendData["code_rate_hp"], TYPE_TEXT), (_("FEC LP"), frontendData["code_rate_lp"], TYPE_TEXT), (_("Transmission mode"), frontendData["transmission_mode"], TYPE_TEXT), (_("Guard interval"), frontendData["guard_interval"], TYPE_TEXT), (_("Hierarchy info"), frontendData["hierarchy_information"], TYPE_TEXT)) return [ ]
def scanStatusChanged(self): if self.state == self.Running: self.progressbar.setValue(self.scan.getProgress()) self.lcd_summary.updateProgress(self.scan.getProgress()) if self.scan.isDone(): errcode = self.scan.getError() if errcode == 0: self.state = self.DonePartially self.servicelist.listAll() else: self.state = self.Error self.errorcode = errcode self.network.setText("") self.transponder.setText("") else: result = self.foundServices + self.scan.getNumServices() percentage = self.scan.getProgress() if percentage > 99: percentage = 99 #TRANSLATORS: The stb is performing a channel scan, progress percentage is printed in '%d' (and '%%' will show a single '%' symbol) message = ngettext("Scanning - %d%% completed", "Scanning - %d%% completed", percentage) % percentage message += ", " #TRANSLATORS: Intermediate scanning result, '%d' channel(s) have been found so far message += ngettext("%d channel found", "%d channels found", result) % result self.text.setText(message) transponder = self.scan.getCurrentTransponder() network = "" tp_text = "" if transponder: tp_type = transponder.getSystem() if tp_type == iDVBFrontend.feSatellite: network = _("Satellite") tp = transponder.getDVBS() orb_pos = tp.orbital_position try: sat_name = str(nimmgr.getSatDescription(orb_pos)) except KeyError: sat_name = "" if orb_pos > 1800: # west orb_pos = 3600 - orb_pos h = _("W") else: h = _("E") if ("%d.%d" % (orb_pos / 10, orb_pos % 10)) in sat_name: network = sat_name else: network = "%s %d.%d %s" % (sat_name, orb_pos / 10, orb_pos % 10, h) tp_text = { tp.System_DVB_S: "DVB-S", tp.System_DVB_S2: "DVB-S2" }.get(tp.system, "") if tp_text == "DVB-S2": tp_text = "%s %s" % (tp_text, { tp.Modulation_Auto: "Auto", tp.Modulation_QPSK: "QPSK", tp.Modulation_8PSK: "8PSK", tp.Modulation_QAM16: "QAM16", tp.Modulation_16APSK: "16APSK", tp.Modulation_32APSK: "32APSK" }.get(tp.modulation, "")) tp_text = "%s %d%c / %d / %s" % ( tp_text, tp.frequency / 1000, { tp.Polarisation_Horizontal: 'H', tp.Polarisation_Vertical: 'V', tp.Polarisation_CircularLeft: 'L', tp.Polarisation_CircularRight: 'R' }.get(tp.polarisation, ' '), tp.symbol_rate / 1000, { tp.FEC_Auto: "AUTO", tp.FEC_1_2: "1/2", tp.FEC_2_3: "2/3", tp.FEC_3_4: "3/4", tp.FEC_5_6: "5/6", tp.FEC_7_8: "7/8", tp.FEC_8_9: "8/9", tp.FEC_3_5: "3/5", tp.FEC_4_5: "4/5", tp.FEC_9_10: "9/10", tp.FEC_None: "NONE" }.get(tp.fec, "")) if tp.is_id > -1 and tp.system == tp.System_DVB_S2: tp_text = ("%s IS %d") % (tp_text, tp.is_id) elif tp_type == iDVBFrontend.feCable: network = _("Cable") tp = transponder.getDVBC() tp_text = "DVB-C %s %d / %d / %s" % ( { tp.Modulation_Auto: "AUTO", tp.Modulation_QAM16: "QAM16", tp.Modulation_QAM32: "QAM32", tp.Modulation_QAM64: "QAM64", tp.Modulation_QAM128: "QAM128", tp.Modulation_QAM256: "QAM256" }.get(tp.modulation, ""), tp.frequency, tp.symbol_rate / 1000, { tp.FEC_Auto: "AUTO", tp.FEC_1_2: "1/2", tp.FEC_2_3: "2/3", tp.FEC_3_4: "3/4", tp.FEC_5_6: "5/6", tp.FEC_7_8: "7/8", tp.FEC_8_9: "8/9", tp.FEC_3_5: "3/5", tp.FEC_4_5: "4/5", tp.FEC_9_10: "9/10", tp.FEC_None: "NONE" }.get(tp.fec_inner, "")) elif tp_type == iDVBFrontend.feTerrestrial: network = _("Terrestrial") tp = transponder.getDVBT() channel = channelnumbers.getChannelNumber( tp.frequency, self.scanList[self.run]["feid"]) if channel: channel = _("CH") + "%s " % channel freqMHz = "%0.1f MHz" % (tp.frequency / 1000000.) tp_text = "%s %s %s %s" % ( { tp.System_DVB_T_T2: "DVB-T/T2", tp.System_DVB_T: "DVB-T", tp.System_DVB_T2: "DVB-T2" }.get(tp.system, ""), { tp.Modulation_QPSK: "QPSK", tp.Modulation_QAM16: "QAM16", tp.Modulation_QAM64: "QAM64", tp.Modulation_Auto: "AUTO", tp.Modulation_QAM256: "QAM256" }.get(tp.modulation, ""), "%s%s" % (channel, freqMHz.replace(".0", "")), { tp.Bandwidth_8MHz: "Bw 8MHz", tp.Bandwidth_7MHz: "Bw 7MHz", tp.Bandwidth_6MHz: "Bw 6MHz", tp.Bandwidth_Auto: "Bw Auto", tp.Bandwidth_5MHz: "Bw 5MHz", tp.Bandwidth_1_712MHz: "Bw 1.712MHz", tp.Bandwidth_10MHz: "Bw 10MHz" }.get(tp.bandwidth, "")) elif tp_type == iDVBFrontend.feATSC: network = _("ATSC") tp = transponder.getATSC() freqMHz = "%0.1f MHz" % (tp.frequency / 1000000.) tp_text = ("%s %s %s %s") % ( { tp.System_ATSC: _("ATSC"), tp.System_DVB_C_ANNEX_B: _("DVB-C ANNEX B") }.get(tp.system, ""), { tp.Modulation_Auto: _("Auto"), tp.Modulation_QAM16: "QAM16", tp.Modulation_QAM32: "QAM32", tp.Modulation_QAM64: "QAM64", tp.Modulation_QAM128: "QAM128", tp.Modulation_QAM256: "QAM256", tp.Modulation_VSB_8: "8VSB", tp.Modulation_VSB_16: "16VSB" }.get(tp.modulation, ""), freqMHz.replace( ".0", ""), { tp.Inversion_Off: _("Off"), tp.Inversion_On: _("On"), tp.Inversion_Unknown: _("Auto") }.get(tp.inversion, "")) else: print "unknown transponder type in scanStatusChanged" self.network.setText(network) self.transponder.setText(tp_text) if self.state == self.DonePartially: self.foundServices += self.scan.getNumServices() self.text.setText( ngettext("Scanning completed, %d channel found", "Scanning completed, %d channels found", self.foundServices) % self.foundServices) if self.state == self.Error: self.text.setText( _("ERROR - failed to scan (%s)!") % (self.Errors[self.errorcode])) if self.state == self.DonePartially or self.state == self.Error: self.delaytimer.start(100, True)
def createSetup(self): self.list = [] self.satfinderTunerEntry = getConfigListEntry(_("Tuner"), self.satfinder_scan_nims) self.list.append(self.satfinderTunerEntry) if nimmanager.nim_slots[int( self.satfinder_scan_nims.value)].isCompatible("DVB-S"): self.tuning_sat = self.scan_satselection[self.getSelectedSatIndex( self.feid)] self.satEntry = getConfigListEntry(_('Satellite'), self.tuning_sat) self.list.append(self.satEntry) self.typeOfTuningEntry = getConfigListEntry( _('Tune'), self.tuning_type) if len( nimmanager.getTransponders(int(self.tuning_sat.value)) ) < 1: # Only offer 'predefined transponder' if some transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) nim = nimmanager.nim_slots[self.feid] if self.tuning_type.value == "single_transponder": if nim.isCompatible("DVB-S2"): self.systemEntry = getConfigListEntry( _('System'), self.scan_sat.system) self.list.append(self.systemEntry) else: # downgrade to dvb-s, in case a -s2 config was active self.scan_sat.system.value = eDVBFrontendParametersSatellite.System_DVB_S self.list.append( getConfigListEntry(_('Frequency'), self.scan_sat.frequency)) self.list.append( getConfigListEntry(_('Polarization'), self.scan_sat.polarization)) self.list.append( getConfigListEntry(_('Symbol rate'), self.scan_sat.symbolrate)) self.list.append( getConfigListEntry(_('Inversion'), self.scan_sat.inversion)) if self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S: self.list.append( getConfigListEntry(_("FEC"), self.scan_sat.fec)) elif self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S2: self.list.append( getConfigListEntry(_("FEC"), self.scan_sat.fec_s2)) self.modulationEntry = getConfigListEntry( _('Modulation'), self.scan_sat.modulation) self.list.append(self.modulationEntry) self.list.append( getConfigListEntry(_('Roll-off'), self.scan_sat.rolloff)) self.list.append( getConfigListEntry(_('Pilot'), self.scan_sat.pilot)) elif self.tuning_type.value == "predefined_transponder": self.updatePreDefTransponders() self.list.append( getConfigListEntry(_("Transponder"), self.preDefTransponders)) elif nimmanager.nim_slots[int( self.satfinder_scan_nims.value)].isCompatible("DVB-C"): self.typeOfTuningEntry = getConfigListEntry( _('Tune'), self.tuning_type) if config.Nims[self.feid].cable.scan_type.value != "provider" or len( nimmanager.getTranspondersCable( int(self.satfinder_scan_nims.value)) ) < 1: # only show 'predefined transponder' if in provider mode and transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) if self.tuning_type.value == "single_transponder": self.list.append( getConfigListEntry(_("Frequency"), self.scan_cab.frequency)) self.list.append( getConfigListEntry(_("Inversion"), self.scan_cab.inversion)) self.list.append( getConfigListEntry(_("Symbol rate"), self.scan_cab.symbolrate)) self.list.append( getConfigListEntry(_("Modulation"), self.scan_cab.modulation)) self.list.append( getConfigListEntry(_("FEC"), self.scan_cab.fec)) elif self.tuning_type.value == "predefined_transponder": self.scan_nims.value = self.satfinder_scan_nims.value self.predefinedCabTranspondersList() self.list.append( getConfigListEntry(_('Transponder'), self.CableTransponders)) elif nimmanager.nim_slots[int( self.satfinder_scan_nims.value)].isCompatible("DVB-T"): self.typeOfTuningEntry = getConfigListEntry( _('Tune'), self.tuning_type) region = nimmanager.getTerrestrialDescription( int(self.satfinder_scan_nims.value)) if len( nimmanager.getTranspondersTerrestrial(region) ) < 1: # Only offer 'predefined transponder' if some transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) if self.tuning_type.value == "single_transponder": if nimmanager.nim_slots[int( self.satfinder_scan_nims.value)].isCompatible( "DVB-T2"): self.systemEntryTerr = getConfigListEntry( _('System'), self.scan_ter.system) self.list.append(self.systemEntryTerr) else: self.scan_ter.system.value = eDVBFrontendParametersTerrestrial.System_DVB_T self.typeOfInputEntry = getConfigListEntry( _("Use frequency or channel"), self.scan_input_as) if self.ter_channel_input: self.list.append(self.typeOfInputEntry) else: self.scan_input_as.value = self.scan_input_as.choices[0] if self.ter_channel_input and self.scan_input_as.value == "channel": channel = channelnumbers.getChannelNumber( self.scan_ter.frequency.value * 1000, self.ter_tnumber) if channel: self.scan_ter.channel.value = int( channel.replace("+", "").replace("-", "")) self.list.append( getConfigListEntry(_("Channel"), self.scan_ter.channel)) else: prev_val = self.scan_ter.frequency.value self.scan_ter.frequency.value = channelnumbers.channel2frequency( self.scan_ter.channel.value, self.ter_tnumber) / 1000 if self.scan_ter.frequency.value == 474000: self.scan_ter.frequency.value = prev_val self.list.append( getConfigListEntry(_("Frequency"), self.scan_ter.frequency)) self.list.append( getConfigListEntry(_("Inversion"), self.scan_ter.inversion)) self.list.append( getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth)) self.list.append( getConfigListEntry(_("Code rate HP"), self.scan_ter.fechigh)) self.list.append( getConfigListEntry(_("Code rate LP"), self.scan_ter.feclow)) self.list.append( getConfigListEntry(_("Modulation"), self.scan_ter.modulation)) self.list.append( getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission)) self.list.append( getConfigListEntry(_("Guard interval"), self.scan_ter.guard)) self.list.append( getConfigListEntry(_("Hierarchy info"), self.scan_ter.hierarchy)) if self.scan_ter.system.value == eDVBFrontendParametersTerrestrial.System_DVB_T2: self.list.append( getConfigListEntry(_('PLP ID'), self.scan_ter.plp_id)) elif self.tuning_type.value == "predefined_transponder": self.scan_nims.value = self.satfinder_scan_nims.value self.predefinedTerrTranspondersList() self.list.append( getConfigListEntry(_('Transponder'), self.TerrestrialTransponders)) self.retune(None) self["config"].list = self.list self["config"].l.setList(self.list)
def scanStatusChanged(self): if self.state == self.Running: self.progressbar.setValue(self.scan.getProgress()) self.lcd_summary.updateProgress(self.scan.getProgress()) if self.scan.isDone(): errcode = self.scan.getError() if errcode == 0: self.state = self.DonePartially self.servicelist.listAll() else: self.state = self.Error self.errorcode = errcode self.network.setText('') self.transponder.setText('') else: result = self.foundServices + self.scan.getNumServices() percentage = self.scan.getProgress() if percentage > 99: percentage = 99 message = ngettext('Scanning - %d%% completed', 'Scanning - %d%% completed', percentage) % percentage message += ', ' message += ngettext('%d channel found', '%d channels found', result) % result self.text.setText(message) transponder = self.scan.getCurrentTransponder() network = '' tp_text = '' if transponder: tp_type = transponder.getSystem() if tp_type == iDVBFrontend.feSatellite: network = _('Satellite') tp = transponder.getDVBS() orb_pos = tp.orbital_position try: sat_name = str(nimmgr.getSatDescription(orb_pos)) except KeyError: sat_name = '' if orb_pos > 1800: orb_pos = 3600 - orb_pos h = _('W') else: h = _('E') if '%d.%d' % (orb_pos / 10, orb_pos % 10) in sat_name: network = sat_name else: network = '%s %d.%d %s' % (sat_name, orb_pos / 10, orb_pos % 10, h) tp_text = {tp.System_DVB_S: 'DVB-S', tp.System_DVB_S2: 'DVB-S2'}.get(tp.system, '') if tp_text == 'DVB-S2': tp_text = '%s %s' % (tp_text, {tp.Modulation_Auto: 'Auto', tp.Modulation_QPSK: 'QPSK', tp.Modulation_8PSK: '8PSK', tp.Modulation_QAM16: 'QAM16', tp.Modulation_16APSK: '16APSK', tp.Modulation_32APSK: '32APSK'}.get(tp.modulation, '')) tp_text = '%s %d%c / %d / %s' % (tp_text, tp.frequency / 1000, {tp.Polarisation_Horizontal: 'H', tp.Polarisation_Vertical: 'V', tp.Polarisation_CircularLeft: 'L', tp.Polarisation_CircularRight: 'R'}.get(tp.polarisation, ' '), tp.symbol_rate / 1000, {tp.FEC_Auto: 'AUTO', tp.FEC_1_2: '1/2', tp.FEC_2_3: '2/3', tp.FEC_3_4: '3/4', tp.FEC_3_5: '3/5', tp.FEC_4_5: '4/5', tp.FEC_5_6: '5/6', tp.FEC_6_7: '6/7', tp.FEC_7_8: '7/8', tp.FEC_8_9: '8/9', tp.FEC_9_10: '9/10', tp.FEC_None: 'NONE'}.get(tp.fec, '')) if tp.system == tp.System_DVB_S2: if tp.is_id > tp.No_Stream_Id_Filter: tp_text = '%s MIS %d' % (tp_text, tp.is_id) if tp.pls_code > 0: tp_text = '%s Gold %d' % (tp_text, tp.pls_code) if tp.t2mi_plp_id > tp.No_T2MI_PLP_Id: tp_text = '%s T2MI %d PID %d' % (tp_text, tp.t2mi_plp_id, tp.t2mi_pid) elif tp_type == iDVBFrontend.feCable: network = _('Cable') tp = transponder.getDVBC() tp_text = 'DVB-C %s %d / %d / %s' % ({tp.Modulation_Auto: 'AUTO', tp.Modulation_QAM16: 'QAM16', tp.Modulation_QAM32: 'QAM32', tp.Modulation_QAM64: 'QAM64', tp.Modulation_QAM128: 'QAM128', tp.Modulation_QAM256: 'QAM256'}.get(tp.modulation, ''), tp.frequency, tp.symbol_rate / 1000, {tp.FEC_Auto: 'AUTO', tp.FEC_1_2: '1/2', tp.FEC_2_3: '2/3', tp.FEC_3_4: '3/4', tp.FEC_3_5: '3/5', tp.FEC_4_5: '4/5', tp.FEC_5_6: '5/6', tp.FEC_6_7: '6/7', tp.FEC_7_8: '7/8', tp.FEC_8_9: '8/9', tp.FEC_9_10: '9/10', tp.FEC_None: 'NONE'}.get(tp.fec_inner, '')) elif tp_type == iDVBFrontend.feTerrestrial: network = _('Terrestrial') tp = transponder.getDVBT() channel = channelnumbers.getChannelNumber(tp.frequency, self.scanList[self.run]['feid']) if channel: channel = _('CH') + '%s ' % channel freqMHz = '%0.1f MHz' % (tp.frequency / 1000000.0) tp_text = '%s %s %s %s' % ({tp.System_DVB_T_T2: 'DVB-T/T2', tp.System_DVB_T: 'DVB-T', tp.System_DVB_T2: 'DVB-T2'}.get(tp.system, ''), {tp.Modulation_QPSK: 'QPSK', tp.Modulation_QAM16: 'QAM16', tp.Modulation_QAM64: 'QAM64', tp.Modulation_Auto: 'AUTO', tp.Modulation_QAM256: 'QAM256'}.get(tp.modulation, ''), '%s%s' % (channel, freqMHz.replace('.0', '')), {tp.Bandwidth_8MHz: 'Bw 8MHz', tp.Bandwidth_7MHz: 'Bw 7MHz', tp.Bandwidth_6MHz: 'Bw 6MHz', tp.Bandwidth_Auto: 'Bw Auto', tp.Bandwidth_5MHz: 'Bw 5MHz', tp.Bandwidth_1_712MHz: 'Bw 1.712MHz', tp.Bandwidth_10MHz: 'Bw 10MHz'}.get(tp.bandwidth, '')) elif tp_type == iDVBFrontend.feATSC: network = _('ATSC') tp = transponder.getATSC() freqMHz = '%0.1f MHz' % (tp.frequency / 1000000.0) tp_text = '%s %s %s %s' % ({tp.System_ATSC: _('ATSC'), tp.System_DVB_C_ANNEX_B: _('DVB-C ANNEX B')}.get(tp.system, ''), {tp.Modulation_Auto: _('Auto'), tp.Modulation_QAM16: 'QAM16', tp.Modulation_QAM32: 'QAM32', tp.Modulation_QAM64: 'QAM64', tp.Modulation_QAM128: 'QAM128', tp.Modulation_QAM256: 'QAM256', tp.Modulation_VSB_8: '8VSB', tp.Modulation_VSB_16: '16VSB'}.get(tp.modulation, ''), freqMHz.replace('.0', ''), {tp.Inversion_Off: _('Off'), tp.Inversion_On: _('On'), tp.Inversion_Unknown: _('Auto')}.get(tp.inversion, '')) else: print 'unknown transponder type in scanStatusChanged' self.network.setText(network) self.transponder.setText(tp_text) if self.state == self.DonePartially: self.foundServices += self.scan.getNumServices() self.text.setText(ngettext('Scanning completed, %d channel found', 'Scanning completed, %d channels found', self.foundServices) % self.foundServices) if self.state == self.Error: self.text.setText(_('ERROR - failed to scan (%s)!') % self.Errors[self.errorcode]) if self.state == self.DonePartially or self.state == self.Error: self.delaytimer.start(100, True)
def scanStatusChanged(self): if self.state == self.Running: self.progressbar.setValue(self.scan.getProgress()) self.lcd_summary.updateProgress(self.scan.getProgress()) if self.scan.isDone(): errcode = self.scan.getError() if errcode == 0: self.state = self.Done self.servicelist.listAll() else: self.state = self.Error self.errorcode = errcode self.network.setText('') self.transponder.setText('') else: result = self.foundServices + self.scan.getNumServices() percentage = self.scan.getProgress() if percentage > 99: percentage = 99 message = ngettext('Scanning - %d%% completed', 'Scanning - %d%% completed', percentage) % percentage message += ', ' message += ngettext('%d channel found', '%d channels found', result) % result self.text.setText(message) transponder = self.scan.getCurrentTransponder() network = '' tp_text = '' if transponder: tp_type = transponder.getSystem() if tp_type == iDVBFrontend.feSatellite: network = _('Satellite') tp = transponder.getDVBS() orb_pos = tp.orbital_position try: sat_name = str(nimmgr.getSatDescription(orb_pos)) except KeyError: sat_name = '' if orb_pos > 1800: orb_pos = 3600 - orb_pos h = _('W') else: h = _('E') if '%d.%d' % (orb_pos / 10, orb_pos % 10) in sat_name: network = sat_name else: network = '%s %d.%d %s' % (sat_name, orb_pos / 10, orb_pos % 10, h) tp_text = {tp.System_DVB_S: 'DVB-S', tp.System_DVB_S2: 'DVB-S2'}.get(tp.system, '') if tp_text == 'DVB-S2': tp_text = '%s %s' % (tp_text, {tp.Modulation_Auto: 'Auto', tp.Modulation_QPSK: 'QPSK', tp.Modulation_8PSK: '8PSK', tp.Modulation_QAM16: 'QAM16'}.get(tp.modulation, '')) tp_text = '%s %d%c / %d / %s' % (tp_text, tp.frequency / 1000, {tp.Polarisation_Horizontal: 'H', tp.Polarisation_Vertical: 'V', tp.Polarisation_CircularLeft: 'L', tp.Polarisation_CircularRight: 'R'}.get(tp.polarisation, ' '), tp.symbol_rate / 1000, {tp.FEC_Auto: 'AUTO', tp.FEC_1_2: '1/2', tp.FEC_2_3: '2/3', tp.FEC_3_4: '3/4', tp.FEC_5_6: '5/6', tp.FEC_7_8: '7/8', tp.FEC_8_9: '8/9', tp.FEC_3_5: '3/5', tp.FEC_4_5: '4/5', tp.FEC_9_10: '9/10', tp.FEC_None: 'NONE'}.get(tp.fec, '')) elif tp_type == iDVBFrontend.feCable: network = _('Cable') tp = transponder.getDVBC() tp_text = 'DVB-C %s %d / %d / %s' % ({tp.Modulation_Auto: 'AUTO', tp.Modulation_QAM16: 'QAM16', tp.Modulation_QAM32: 'QAM32', tp.Modulation_QAM64: 'QAM64', tp.Modulation_QAM128: 'QAM128', tp.Modulation_QAM256: 'QAM256'}.get(tp.modulation, ''), tp.frequency, tp.symbol_rate / 1000, {tp.FEC_Auto: 'AUTO', tp.FEC_1_2: '1/2', tp.FEC_2_3: '2/3', tp.FEC_3_4: '3/4', tp.FEC_5_6: '5/6', tp.FEC_7_8: '7/8', tp.FEC_8_9: '8/9', tp.FEC_3_5: '3/5', tp.FEC_4_5: '4/5', tp.FEC_9_10: '9/10', tp.FEC_None: 'NONE'}.get(tp.fec_inner, '')) elif tp_type == iDVBFrontend.feTerrestrial: network = _('Terrestrial') tp = transponder.getDVBT() channel = channelnumbers.getChannelNumber(tp.frequency, self.scanList[self.run]['feid']) if channel: channel = _('CH') + '%s ' % channel freqMHz = '%0.1f MHz' % (tp.frequency / 1000000.0) tp_text = '%s %s %s %s' % ({tp.System_DVB_T_T2: 'DVB-T/T2', tp.System_DVB_T: 'DVB-T', tp.System_DVB_T2: 'DVB-T2'}.get(tp.system, ''), {tp.Modulation_QPSK: 'QPSK', tp.Modulation_QAM16: 'QAM16', tp.Modulation_QAM64: 'QAM64', tp.Modulation_Auto: 'AUTO', tp.Modulation_QAM256: 'QAM256'}.get(tp.modulation, ''), '%s%s' % (channel, freqMHz.replace('.0', '')), {tp.Bandwidth_8MHz: 'Bw 8MHz', tp.Bandwidth_7MHz: 'Bw 7MHz', tp.Bandwidth_6MHz: 'Bw 6MHz', tp.Bandwidth_Auto: 'Bw Auto', tp.Bandwidth_5MHz: 'Bw 5MHz', tp.Bandwidth_1_712MHz: 'Bw 1.712MHz', tp.Bandwidth_10MHz: 'Bw 10MHz'}.get(tp.bandwidth, '')) else: print 'unknown transponder type in scanStatusChanged' self.network.setText(network) self.transponder.setText(tp_text) if self.state == self.Done: result = self.foundServices + self.scan.getNumServices() self.text.setText(ngettext('Scanning completed, %d channel found', 'Scanning completed, %d channels found', result) % result) if self.state == self.Error: self.text.setText(_('ERROR - failed to scan (%s)!') % self.Errors[self.errorcode]) if self.state == self.Done or self.state == self.Error: if self.run != len(self.scanList) - 1: self.foundServices += self.scan.getNumServices() self.execEnd() self.run += 1 self.execBegin()
def createChannelNumber(self, fedata, feraw): channel = channelnumbers.getChannelNumber(feraw.get("frequency"), feraw.get("tuner_number")) if channel: return _("CH") + "%s" % channel return ""
def createSetup(self): self.list = [] self.multiscanlist = [] index_to_scan = int(self.scan_nims.value) print "ID: ", index_to_scan self.tunerEntry = getConfigListEntry(_("Tuner"), self.scan_nims) self.list.append(self.tunerEntry) if self.scan_nims == [ ]: return self.typeOfScanEntry = None self.typeOfInputEntry = None self.systemEntry = None self.modulationEntry = None self.preDefSatList = None nim = nimmanager.nim_slots[index_to_scan] if nim.isCompatible("DVB-S"): self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_type) self.list.append(self.typeOfScanEntry) elif nim.isCompatible("DVB-C"): self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_typecable) self.list.append(self.typeOfScanEntry) elif nim.isCompatible("DVB-T"): self.typeOfScanEntry = getConfigListEntry(_("Type of scan"), self.scan_typeterrestrial) self.typeOfInputEntry = getConfigListEntry(_("Use frequency or channel"), self.scan_input_as) self.list.append(self.typeOfScanEntry) if self.ter_channel_input: self.list.append(self.typeOfInputEntry) self.scan_networkScan.value = False if nim.isCompatible("DVB-S"): if self.scan_type.value == "single_transponder": self.updateSatList() if nim.isCompatible("DVB-S2"): self.systemEntry = getConfigListEntry(_('System'), self.scan_sat.system) self.list.append(self.systemEntry) else: # downgrade to dvb-s, in case a -s2 config was active self.scan_sat.system.value = eDVBFrontendParametersSatellite.System_DVB_S self.list.append(getConfigListEntry(_('Satellite'), self.scan_satselection[index_to_scan])) self.list.append(getConfigListEntry(_('Frequency'), self.scan_sat.frequency)) self.list.append(getConfigListEntry(_('Inversion'), self.scan_sat.inversion)) self.list.append(getConfigListEntry(_('Symbol rate'), self.scan_sat.symbolrate)) self.list.append(getConfigListEntry(_('Polarization'), self.scan_sat.polarization)) if self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S: self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec)) elif self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S2: self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec_s2)) self.modulationEntry = getConfigListEntry(_('Modulation'), self.scan_sat.modulation) self.list.append(self.modulationEntry) self.list.append(getConfigListEntry(_('Roll-off'), self.scan_sat.rolloff)) self.list.append(getConfigListEntry(_('Pilot'), self.scan_sat.pilot)) elif self.scan_type.value == "predefined_transponder" and self.satList[index_to_scan]: self.updateSatList() self.preDefSatList = getConfigListEntry(_('Satellite'), self.scan_satselection[index_to_scan]) self.list.append(self.preDefSatList) sat = self.satList[index_to_scan][self.scan_satselection[index_to_scan].index] self.predefinedTranspondersList(sat[0]) self.list.append(getConfigListEntry(_('Transponder'), self.preDefTransponders)) elif self.scan_type.value == "single_satellite": self.updateSatList() print self.scan_satselection[index_to_scan] self.list.append(getConfigListEntry(_("Satellite"), self.scan_satselection[index_to_scan])) self.scan_networkScan.value = True elif "multisat" in self.scan_type.value: tlist = [] SatList = nimmanager.getSatListForNim(index_to_scan) for x in SatList: if self.Satexists(tlist, x[0]) == 0: tlist.append(x[0]) sat = ConfigEnableDisable(default = "_yes" in self.scan_type.value and True or False) configEntry = getConfigListEntry(nimmanager.getSatDescription(x[0]), sat) self.list.append(configEntry) self.multiscanlist.append((x[0], sat)) self.scan_networkScan.value = True elif nim.isCompatible("DVB-C"): if self.scan_typecable.value == "single_transponder": self.list.append(getConfigListEntry(_("Frequency"), self.scan_cab.frequency)) self.list.append(getConfigListEntry(_("Inversion"), self.scan_cab.inversion)) self.list.append(getConfigListEntry(_("Symbol rate"), self.scan_cab.symbolrate)) self.list.append(getConfigListEntry(_("Modulation"), self.scan_cab.modulation)) self.list.append(getConfigListEntry(_("FEC"), self.scan_cab.fec)) if config.Nims[index_to_scan].cable.scan_networkid.value: self.networkid = config.Nims[index_to_scan].cable.scan_networkid.value self.scan_networkScan.value = True elif nim.isCompatible("DVB-T"): if self.scan_typeterrestrial.value == "single_transponder": if nim.isCompatible("DVB-T2"): self.systemEntry = getConfigListEntry(_('System'), self.scan_ter.system) self.list.append(self.systemEntry) else: self.scan_ter.system.value = eDVBFrontendParametersTerrestrial.System_DVB_T if self.ter_channel_input and self.scan_input_as.value == "channel": channel = channelnumbers.getChannelNumber(self.scan_ter.frequency.value*1000, self.ter_tnumber) self.scan_ter.channel.value = int(channel.replace("+","").replace("-","")) self.list.append(getConfigListEntry(_("Channel"), self.scan_ter.channel)) else: self.scan_ter.frequency.value = channelnumbers.channel2frequency(self.scan_ter.channel.value, self.ter_tnumber)/1000 self.list.append(getConfigListEntry(_("Frequency"), self.scan_ter.frequency)) self.list.append(getConfigListEntry(_("Inversion"), self.scan_ter.inversion)) self.list.append(getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth)) self.list.append(getConfigListEntry(_("Code rate HP"), self.scan_ter.fechigh)) self.list.append(getConfigListEntry(_("Code rate LP"), self.scan_ter.feclow)) self.list.append(getConfigListEntry(_("Modulation"), self.scan_ter.modulation)) self.list.append(getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission)) self.list.append(getConfigListEntry(_("Guard interval"), self.scan_ter.guard)) self.list.append(getConfigListEntry(_("Hierarchy info"), self.scan_ter.hierarchy)) if self.scan_ter.system.value == eDVBFrontendParametersTerrestrial.System_DVB_T2: self.list.append(getConfigListEntry(_('PLP ID'), self.scan_ter.plp_id)) self.list.append(getConfigListEntry(_("Network scan"), self.scan_networkScan)) self.list.append(getConfigListEntry(_("Clear before scan"), self.scan_clearallservices)) self.list.append(getConfigListEntry(_("Only free scan"), self.scan_onlyfree)) self["config"].list = self.list self["config"].l.setList(self.list)
def scanStatusChanged(self): if self.state == self.Running: self.progressbar.setValue(self.scan.getProgress()) self.lcd_summary.updateProgress(self.scan.getProgress()) if self.scan.isDone(): errcode = self.scan.getError() if errcode == 0: self.state = self.Done self.servicelist.listAll() else: self.state = self.Error self.errorcode = errcode self.network.setText("") self.transponder.setText("") else: result = self.foundServices + self.scan.getNumServices() percentage = self.scan.getProgress() if percentage > 99: percentage = 99 #TRANSLATORS: The stb is performing a channel scan, progress percentage is printed in '%d' (and '%%' will show a single '%' symbol) message = ngettext("Scanning - %d%% completed", "Scanning - %d%% completed", percentage) % percentage message += ", " #TRANSLATORS: Intermediate scanning result, '%d' channel(s) have been found so far message += ngettext("%d channel found", "%d channels found", result) % result self.text.setText(message) transponder = self.scan.getCurrentTransponder() network = "" tp_text = "" if transponder: tp_type = transponder.getSystem() if tp_type == iDVBFrontend.feSatellite: network = _("Satellite") tp = transponder.getDVBS() orb_pos = tp.orbital_position try: sat_name = str(nimmgr.getSatDescription(orb_pos)) except KeyError: sat_name = "" if orb_pos > 1800: # west orb_pos = 3600 - orb_pos h = _("W") else: h = _("E") if ("%d.%d" % (orb_pos/10, orb_pos%10)) in sat_name: network = sat_name else: network = ("%s %d.%d %s") % (sat_name, orb_pos / 10, orb_pos % 10, h) tp_text = { tp.System_DVB_S : "DVB-S", tp.System_DVB_S2 : "DVB-S2" }.get(tp.system, "") if tp_text == "DVB-S2": tp_text = ("%s %s") % ( tp_text, { tp.Modulation_Auto : "Auto", tp.Modulation_QPSK : "QPSK", tp.Modulation_8PSK : "8PSK", tp.Modulation_QAM16 : "QAM16" }.get(tp.modulation, "")) tp_text = ("%s %d%c / %d / %s") % ( tp_text, tp.frequency/1000, { tp.Polarisation_Horizontal : 'H', tp.Polarisation_Vertical : 'V', tp.Polarisation_CircularLeft : 'L', tp.Polarisation_CircularRight : 'R' }.get(tp.polarisation, ' '), tp.symbol_rate/1000, { tp.FEC_Auto : "AUTO", tp.FEC_1_2 : "1/2", tp.FEC_2_3 : "2/3", tp.FEC_3_4 : "3/4", tp.FEC_5_6 : "5/6", tp.FEC_7_8 : "7/8", tp.FEC_8_9 : "8/9", tp.FEC_3_5 : "3/5", tp.FEC_4_5 : "4/5", tp.FEC_9_10 : "9/10", tp.FEC_None : "NONE" }.get(tp.fec, "")) elif tp_type == iDVBFrontend.feCable: network = _("Cable") tp = transponder.getDVBC() freqMHz = "%0.1f MHz" % (tp.frequency/1000000.) tp_text = ("DVB-C %s %s / %d / %s") %( { tp.Modulation_Auto : "AUTO", tp.Modulation_QAM16 : "QAM16", tp.Modulation_QAM32 : "QAM32", tp.Modulation_QAM64 : "QAM64", tp.Modulation_QAM128 : "QAM128", tp.Modulation_QAM256 : "QAM256" }.get(tp.modulation, ""), freqMHz.replace(".0",""), tp.symbol_rate/1000, { tp.FEC_Auto : "AUTO", tp.FEC_1_2 : "1/2", tp.FEC_2_3 : "2/3", tp.FEC_3_4 : "3/4", tp.FEC_5_6 : "5/6", tp.FEC_7_8 : "7/8", tp.FEC_8_9 : "8/9", tp.FEC_6_7 : "6/7", tp.FEC_None : "NONE" }.get(tp.fec_inner, "")) elif tp_type == iDVBFrontend.feTerrestrial: network = _("Terrestrial") tp = transponder.getDVBT() channel = channelnumbers.getChannelNumber(tp.frequency, self.scanList[self.run]["feid"]) if channel: channel = _("CH") + "%s " % channel freqMHz = "%0.1f MHz" % (tp.frequency/1000000.) tp_text = ("%s %s %s %s") %( { tp.System_DVB_T : "DVB-T", tp.System_DVB_T2 : "DVB-T2" }.get(tp.system, ""), { tp.Modulation_QPSK : "QPSK", tp.Modulation_QAM16 : "QAM16", tp.Modulation_QAM64 : "QAM64", tp.Modulation_Auto : "AUTO", tp.Modulation_QAM256 : "QAM256" }.get(tp.modulation, ""), "%s%s" % (channel, freqMHz.replace(".0","")), { tp.Bandwidth_8MHz : "Bw 8MHz", tp.Bandwidth_7MHz : "Bw 7MHz", tp.Bandwidth_6MHz : "Bw 6MHz", tp.Bandwidth_Auto : "Bw Auto", tp.Bandwidth_5MHz : "Bw 5MHz", tp.Bandwidth_1_712MHz : "Bw 1.712MHz", tp.Bandwidth_10MHz : "Bw 10MHz" }.get(tp.bandwidth, "")) else: print "unknown transponder type in scanStatusChanged" self.network.setText(network) self.transponder.setText(tp_text) if self.state == self.Done: result = self.foundServices + self.scan.getNumServices() self.text.setText(ngettext("Scanning completed, %d channel found", "Scanning completed, %d channels found", result) % result) if self.state == self.Error: self.text.setText(_("ERROR - failed to scan (%s)!") % (self.Errors[self.errorcode]) ) if self.state == self.Done or self.state == self.Error: if self.run != len(self.scanList) - 1: self.foundServices += self.scan.getNumServices() self.execEnd() self.run += 1 self.execBegin()
def createSetup(self): self.list = [] self.satfinderTunerEntry = getConfigListEntry(_("Tuner"), self.satfinder_scan_nims) self.list.append(self.satfinderTunerEntry) self.tuning_sat = self.scan_satselection[self.getSelectedSatIndex(self.feid)] if nimmanager.nim_slots[int(self.satfinder_scan_nims.value)].isCompatible("DVB-S"): self.satEntry = getConfigListEntry(_('Satellite'), self.tuning_sat) self.list.append(self.satEntry) self.typeOfTuningEntry = getConfigListEntry(_('Tune'), self.tuning_type) if len(nimmanager.getTransponders(int(self.tuning_sat.value))) < 1: # Only offer 'predefined transponder' if some transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) nim = nimmanager.nim_slots[self.feid] if self.tuning_type.value == "single_transponder": if nim.isCompatible("DVB-S2"): self.systemEntry = getConfigListEntry(_('System'), self.scan_sat.system) self.list.append(self.systemEntry) else: # downgrade to dvb-s, in case a -s2 config was active self.scan_sat.system.value = eDVBFrontendParametersSatellite.System_DVB_S self.list.append(getConfigListEntry(_('Frequency'), self.scan_sat.frequency)) self.list.append(getConfigListEntry(_('Polarization'), self.scan_sat.polarization)) self.list.append(getConfigListEntry(_('Symbol rate'), self.scan_sat.symbolrate)) self.list.append(getConfigListEntry(_('Inversion'), self.scan_sat.inversion)) if self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S: self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec)) elif self.scan_sat.system.value == eDVBFrontendParametersSatellite.System_DVB_S2: self.list.append(getConfigListEntry(_("FEC"), self.scan_sat.fec_s2)) self.modulationEntry = getConfigListEntry(_('Modulation'), self.scan_sat.modulation) self.list.append(self.modulationEntry) self.list.append(getConfigListEntry(_('Roll-off'), self.scan_sat.rolloff)) self.list.append(getConfigListEntry(_('Pilot'), self.scan_sat.pilot)) elif self.tuning_type.value == "predefined_transponder": self.updatePreDefTransponders() self.list.append(getConfigListEntry(_("Transponder"), self.preDefTransponders)) elif nimmanager.nim_slots[int(self.satfinder_scan_nims.value)].isCompatible("DVB-C"): self.typeOfTuningEntry = getConfigListEntry(_('Tune'), self.tuning_type) if config.Nims[self.feid].cable.scan_type.value != "provider" or len(nimmanager.getTranspondersCable(int(self.satfinder_scan_nims.value))) < 1: # only show 'predefined transponder' if in provider mode and transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) if self.tuning_type.value == "single_transponder": self.list.append(getConfigListEntry(_("Frequency"), self.scan_cab.frequency)) self.list.append(getConfigListEntry(_("Inversion"), self.scan_cab.inversion)) self.list.append(getConfigListEntry(_("Symbol rate"), self.scan_cab.symbolrate)) self.list.append(getConfigListEntry(_("Modulation"), self.scan_cab.modulation)) self.list.append(getConfigListEntry(_("FEC"), self.scan_cab.fec)) elif self.tuning_type.value == "predefined_transponder": self.scan_nims.value = self.satfinder_scan_nims.value self.predefinedCabTranspondersList() self.list.append(getConfigListEntry(_('Transponder'), self.CableTransponders)) elif nimmanager.nim_slots[int(self.satfinder_scan_nims.value)].isCompatible("DVB-T"): self.typeOfTuningEntry = getConfigListEntry(_('Tune'), self.tuning_type) region = nimmanager.getTerrestrialDescription(int(self.satfinder_scan_nims.value)) if len(nimmanager.getTranspondersTerrestrial(region)) < 1: # Only offer 'predefined transponder' if some transponders exist self.tuning_type.value = "single_transponder" else: self.list.append(self.typeOfTuningEntry) if self.tuning_type.value == "single_transponder": if nimmanager.nim_slots[int(self.satfinder_scan_nims.value)].isCompatible("DVB-T2"): self.systemEntryTerr = getConfigListEntry(_('System'), self.scan_ter.system) self.list.append(self.systemEntryTerr) else: self.scan_ter.system.value = eDVBFrontendParametersTerrestrial.System_DVB_T self.typeOfInputEntry = getConfigListEntry(_("Use frequency or channel"), self.scan_input_as) if self.ter_channel_input: self.list.append(self.typeOfInputEntry) else: self.scan_input_as.value = self.scan_input_as.choices[0] if self.ter_channel_input and self.scan_input_as.value == "channel": channel = channelnumbers.getChannelNumber(self.scan_ter.frequency.value*1000, self.ter_tnumber) if channel: self.scan_ter.channel.value = int(channel.replace("+","").replace("-","")) self.list.append(getConfigListEntry(_("Channel"), self.scan_ter.channel)) else: prev_val = self.scan_ter.frequency.value self.scan_ter.frequency.value = channelnumbers.channel2frequency(self.scan_ter.channel.value, self.ter_tnumber)/1000 if self.scan_ter.frequency.value == 474000: self.scan_ter.frequency.value = prev_val self.list.append(getConfigListEntry(_("Frequency"), self.scan_ter.frequency)) self.list.append(getConfigListEntry(_("Inversion"), self.scan_ter.inversion)) self.list.append(getConfigListEntry(_("Bandwidth"), self.scan_ter.bandwidth)) self.list.append(getConfigListEntry(_("Code rate HP"), self.scan_ter.fechigh)) self.list.append(getConfigListEntry(_("Code rate LP"), self.scan_ter.feclow)) self.list.append(getConfigListEntry(_("Modulation"), self.scan_ter.modulation)) self.list.append(getConfigListEntry(_("Transmission mode"), self.scan_ter.transmission)) self.list.append(getConfigListEntry(_("Guard interval"), self.scan_ter.guard)) self.list.append(getConfigListEntry(_("Hierarchy info"), self.scan_ter.hierarchy)) if self.scan_ter.system.value == eDVBFrontendParametersTerrestrial.System_DVB_T2: self.list.append(getConfigListEntry(_('PLP ID'), self.scan_ter.plp_id)) elif self.tuning_type.value == "predefined_transponder": self.scan_nims.value = self.satfinder_scan_nims.value self.predefinedTerrTranspondersList() self.list.append(getConfigListEntry(_('Transponder'), self.TerrestrialTransponders)) self.retune(None) self["config"].list = self.list self["config"].l.setList(self.list)
def getFEData(self, frontendDataOrg): if frontendDataOrg and len(frontendDataOrg): frontendData = ConvertToHumanReadable(frontendDataOrg) if frontendDataOrg['tuner_type'] == 'DVB-S': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('System'), frontendData['system'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Orbital position'), frontendData['orbital_position'], TYPE_VALUE_DEC), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Polarization'), frontendData['polarization'], TYPE_TEXT), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT), (_('Pilot'), frontendData.get('pilot', None), TYPE_TEXT), (_('Roll-off'), frontendData.get('rolloff', None), TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-C': return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Modulation'), frontendData['modulation'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Symbol rate'), frontendData['symbol_rate'], TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('FEC'), frontendData['fec_inner'], TYPE_TEXT)) if frontendDataOrg['tuner_type'] == 'DVB-T': channel = channelnumbers.getChannelNumber( frontendDataOrg['frequency'], frontendDataOrg['tuner_number'] ) if channelnumbers.supportedChannels( frontendDataOrg['tuner_number']) else None return ((_('NIM'), chr(ord('A') + frontendData['tuner_number']), TYPE_TEXT), (_('Type'), frontendData['tuner_type'], TYPE_TEXT), (_('Frequency'), frontendData['frequency'], TYPE_VALUE_DEC), (_('Channel'), channel, TYPE_VALUE_DEC), (_('Inversion'), frontendData['inversion'], TYPE_TEXT), (_('Bandwidth'), frontendData['bandwidth'], TYPE_VALUE_DEC), (_('Code rate LP'), frontendData['code_rate_lp'], TYPE_TEXT), (_('Code rate HP'), frontendData['code_rate_hp'], TYPE_TEXT), (_('Constellation'), frontendData['constellation'], TYPE_TEXT), (_('Transmission mode'), frontendData['transmission_mode'], TYPE_TEXT), (_('Guard interval'), frontendData['guard_interval'], TYPE_TEXT), (_('Hierarchy info'), frontendData['hierarchy_information'], TYPE_TEXT)) return []