public QuantityConfig Decode(BitArrayInputStream input) { QuantityConfig config = new QuantityConfig(); config.InitDefaults(); bool flag = input.ReadBit() != 0; BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { config.quantityConfigEUTRA = QuantityConfigEUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigUTRA = QuantityConfigUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigGERAN = QuantityConfigGERAN.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigCDMA2000 = QuantityConfigCDMA2000.PerDecoder.Instance.Decode(input); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { config.quantityConfigUTRA_v1020 = QuantityConfigUTRA_v1020.PerDecoder.Instance.Decode(input); } } return config; }
public cellAccessRelatedInfo_Type Decode(BitArrayInputStream input) { var type = new cellAccessRelatedInfo_Type(); type.InitDefaults(); var stream = new BitMaskStream(input, 1); type.plmn_IdentityList = new List<PLMN_IdentityInfo>(); var nBits = 3; var num3 = input.ReadBits(nBits) + 1; for (var i = 0; i < num3; i++) { var item = PLMN_IdentityInfo.PerDecoder.Instance.Decode(input); type.plmn_IdentityList.Add(item); } type.trackingAreaCode = input.ReadBitString(0x10); type.cellIdentity = input.ReadBitString(0x1c); nBits = 1; type.cellBarred = (cellBarred_Enum)input.ReadBits(nBits); nBits = 1; type.intraFreqReselection = (intraFreqReselection_Enum)input.ReadBits(nBits); type.csg_Indication = input.ReadBit() == 1; if (stream.Read()) { type.csg_Identity = input.ReadBitString(0x1b); } return type; }
public interRAT_Parameters_Type Decode(BitArrayInputStream input) { interRAT_Parameters_Type type = new interRAT_Parameters_Type(); type.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 7); if (stream.Read()) { type.utraFDD = IRAT_ParametersUTRA_FDD.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.utraTDD128 = IRAT_ParametersUTRA_TDD128.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.utraTDD384 = IRAT_ParametersUTRA_TDD384.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.utraTDD768 = IRAT_ParametersUTRA_TDD768.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.geran = IRAT_ParametersGERAN.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.cdma2000_HRPD = IRAT_ParametersCDMA2000_HRPD.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.cdma2000_1xRTT = IRAT_ParametersCDMA2000_1XRTT.PerDecoder.Instance.Decode(input); } return type; }
public SystemInformationBlockType1_v9e0_IEs Decode(BitArrayInputStream input) { var es = new SystemInformationBlockType1_v9e0_IEs(); es.InitDefaults(); var stream = new BitMaskStream(input, 3); if (stream.Read()) { es.freqBandIndicator_v9e0 = input.ReadBits(8) + 0x41; } if (stream.Read()) { es.multiBandInfoList_v9e0 = new List<MultiBandInfo_v9e0>(); const int nBits = 3; var num3 = input.ReadBits(nBits) + 1; for (var i = 0; i < num3; i++) { var item = MultiBandInfo_v9e0.PerDecoder.Instance.Decode(input); es.multiBandInfoList_v9e0.Add(item); } } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public PLMN_Identity Decode(BitArrayInputStream input) { int num2; PLMN_Identity identity = new PLMN_Identity(); identity.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { identity.mcc = new List<long>(); num2 = 0; int num3 = input.ReadBits(num2) + 3; for (int j = 0; j < num3; j++) { long item = input.ReadBits(4); identity.mcc.Add(item); } } identity.mnc = new List<long>(); num2 = 1; int num6 = input.ReadBits(num2) + 2; for (int i = 0; i < num6; i++) { long num8 = input.ReadBits(4); identity.mnc.Add(num8); } return identity; }
public Paging Decode(BitArrayInputStream input) { int num2; Paging paging = new Paging(); paging.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { paging.pagingRecordList = new List<PagingRecord>(); num2 = 4; int num3 = input.ReadBits(num2) + 1; for (int i = 0; i < num3; i++) { PagingRecord item = PagingRecord.PerDecoder.Instance.Decode(input); paging.pagingRecordList.Add(item); } } if (stream.Read()) { num2 = 1; paging.systemInfoModification = (systemInfoModification_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; paging.etws_Indication = (etws_Indication_Enum)input.ReadBits(num2); } if (stream.Read()) { paging.nonCriticalExtension = Paging_v890_IEs.PerDecoder.Instance.Decode(input); } return paging; }
public RRM_Config Decode(BitArrayInputStream input) { int num2; RRM_Config config = new RRM_Config(); config.InitDefaults(); bool flag = input.ReadBit() != 0; BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { num2 = 6; config.ue_InactiveTime = (ue_InactiveTime_Enum)input.ReadBits(num2); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 1); if (!stream2.Read()) { return config; } config.candidateCellInfoList_r10 = new List<CandidateCellInfo_r10>(); num2 = 3; int num3 = input.ReadBits(num2) + 1; for (int i = 0; i < num3; i++) { CandidateCellInfo_r10 item = CandidateCellInfo_r10.PerDecoder.Instance.Decode(input); config.candidateCellInfoList_r10.Add(item); } } return config; }
public FreqPriorityEUTRA_v9e0 Decode(BitArrayInputStream input) { FreqPriorityEUTRA_v9e0 _ve = new FreqPriorityEUTRA_v9e0(); _ve.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _ve.carrierFreq_v9e0 = input.ReadBits(0x12) + 0x10000; } return _ve; }
public EAB_ConfigPLMN_r11 Decode(BitArrayInputStream input) { EAB_ConfigPLMN_r11 _r = new EAB_ConfigPLMN_r11(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _r.eab_Config_r11 = EAB_Config_r11.PerDecoder.Instance.Decode(input); } return _r; }
public MultiBandInfo_v9e0 Decode(BitArrayInputStream input) { MultiBandInfo_v9e0 _ve = new MultiBandInfo_v9e0(); _ve.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _ve.freqBandIndicator_v9e0 = input.ReadBits(8) + 0x41; } return _ve; }
public SystemInformationBlockType15_r11 Decode(BitArrayInputStream input) { int num2; var _r = new SystemInformationBlockType15_r11(); _r.InitDefaults(); var flag = false; flag = input.ReadBit() != 0; var stream = flag ? new BitMaskStream(input, 3) : new BitMaskStream(input, 3); if (stream.Read()) { _r.mbms_SAI_IntraFreq_r11 = new List<long>(); num2 = 6; var num3 = input.ReadBits(num2) + 1; for (var i = 0; i < num3; i++) { long item = input.ReadBits(0x10); _r.mbms_SAI_IntraFreq_r11.Add(item); } } if (stream.Read()) { _r.mbms_SAI_InterFreqList_r11 = new List<MBMS_SAI_InterFreq_r11>(); num2 = 3; var num6 = input.ReadBits(num2) + 1; for (var j = 0; j < num6; j++) { var _r2 = MBMS_SAI_InterFreq_r11.PerDecoder.Instance.Decode(input); _r.mbms_SAI_InterFreqList_r11.Add(_r2); } } if (stream.Read()) { var nBits = input.ReadBits(8); _r.lateNonCriticalExtension = input.readOctetString(nBits); } if (flag) { var stream2 = new BitMaskStream(input, 1); if (!stream2.Read()) { return _r; } _r.mbms_SAI_InterFreqList_v1140 = new List<MBMS_SAI_InterFreq_v1140>(); num2 = 3; var num8 = input.ReadBits(num2) + 1; for (var k = 0; k < num8; k++) { var _v = MBMS_SAI_InterFreq_v1140.PerDecoder.Instance.Decode(input); _r.mbms_SAI_InterFreqList_v1140.Add(_v); } } return _r; }
public ObtainLocationConfig_r11 Decode(BitArrayInputStream input) { ObtainLocationConfig_r11 _r = new ObtainLocationConfig_r11(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { const int nBits = 1; _r.obtainLocation_r11 = (obtainLocation_r11_Enum)input.ReadBits(nBits); } return _r; }
public MeasParameters_v1130 Decode(BitArrayInputStream input) { MeasParameters_v1130 _v = new MeasParameters_v1130(); _v.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { const int nBits = 1; _v.rsrqMeasWideband_r11 = (rsrqMeasWideband_r11_Enum)input.ReadBits(nBits); } return _v; }
public SON_Parameters_r9 Decode(BitArrayInputStream input) { SON_Parameters_r9 _r = new SON_Parameters_r9(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { const int nBits = 1; _r.rach_Report_r9 = (rach_Report_r9_Enum)input.ReadBits(nBits); } return _r; }
public PRACH_Config Decode(BitArrayInputStream input) { PRACH_Config config = new PRACH_Config(); config.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); config.rootSequenceIndex = input.ReadBits(10); if (stream.Read()) { config.prach_ConfigInfo = PRACH_ConfigInfo.PerDecoder.Instance.Decode(input); } return config; }
public preambleInfo_Type Decode(BitArrayInputStream input) { preambleInfo_Type type = new preambleInfo_Type(); type.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); const int nBits = 4; type.numberOfRA_Preambles = (numberOfRA_Preambles_Enum)input.ReadBits(nBits); if (stream.Read()) { type.preamblesGroupAConfig = preamblesGroupAConfig_Type.PerDecoder.Instance.Decode(input); } return type; }
public cellReselectionInfoCommon_Type Decode(BitArrayInputStream input) { var type = new cellReselectionInfoCommon_Type(); type.InitDefaults(); var stream = new BitMaskStream(input, 1); const int nBits = 4; type.q_Hyst = (q_Hyst_Enum)input.ReadBits(nBits); if (stream.Read()) { type.speedStateReselectionPars = speedStateReselectionPars_Type.PerDecoder.Instance.Decode(input); } return type; }
public PhysCellIdRange Decode(BitArrayInputStream input) { PhysCellIdRange range = new PhysCellIdRange(); range.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); range.start = input.ReadBits(9); if (stream.Read()) { const int nBits = 4; range.range = (range_Enum)input.ReadBits(nBits); } return range; }
public OTDOA_PositioningCapabilities_r10 Decode(BitArrayInputStream input) { OTDOA_PositioningCapabilities_r10 _r = new OTDOA_PositioningCapabilities_r10(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); int nBits = 1; _r.otdoa_UE_Assisted_r10 = (otdoa_UE_Assisted_r10_Enum)input.ReadBits(nBits); if (stream.Read()) { nBits = 1; _r.interFreqRSTD_Measurement_r10 = (interFreqRSTD_Measurement_r10_Enum)input.ReadBits(nBits); } return _r; }
public PhyLayerParameters_v1020 Decode(BitArrayInputStream input) { int num2; PhyLayerParameters_v1020 _v = new PhyLayerParameters_v1020(); _v.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 7); if (stream.Read()) { num2 = 1; _v.twoAntennaPortsForPUCCH_r10 = (twoAntennaPortsForPUCCH_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; _v.tm9_With_8Tx_FDD_r10 = (tm9_With_8Tx_FDD_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; _v.pmi_Disabling_r10 = (pmi_Disabling_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; _v.crossCarrierScheduling_r10 = (crossCarrierScheduling_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; _v.simultaneousPUCCH_PUSCH_r10 = (simultaneousPUCCH_PUSCH_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { num2 = 1; _v.multiClusterPUSCH_WithinCC_r10 = (multiClusterPUSCH_WithinCC_r10_Enum)input.ReadBits(num2); } if (stream.Read()) { _v.nonContiguousUL_RA_WithinCC_List_r10 = new List<NonContiguousUL_RA_WithinCC_r10>(); num2 = 6; int num3 = input.ReadBits(num2) + 1; for (int i = 0; i < num3; i++) { NonContiguousUL_RA_WithinCC_r10 item = NonContiguousUL_RA_WithinCC_r10.PerDecoder.Instance.Decode(input); _v.nonContiguousUL_RA_WithinCC_List_r10.Add(item); } } return _v; }
public SystemInformationBlockType2_v9e0_IEs Decode(BitArrayInputStream input) { var es = new SystemInformationBlockType2_v9e0_IEs(); es.InitDefaults(); var stream = new BitMaskStream(input, 2); if (stream.Read()) { es.ul_CarrierFreq_v9e0 = input.ReadBits(0x12) + 0x10000; } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public ul_SpecificParameters_Type Decode(BitArrayInputStream input) { ul_SpecificParameters_Type type = new ul_SpecificParameters_Type(); type.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); type.priority = input.ReadBits(4) + 1; int nBits = 4; type.prioritisedBitRate = (prioritisedBitRate_Enum)input.ReadBits(nBits); nBits = 3; type.bucketSizeDuration = (bucketSizeDuration_Enum)input.ReadBits(nBits); if (stream.Read()) { type.logicalChannelGroup = input.ReadBits(2); } return type; }
public SystemInformation_v8a0_IEs Decode(BitArrayInputStream input) { var es = new SystemInformation_v8a0_IEs(); es.InitDefaults(); var stream = new BitMaskStream(input, 2); if (stream.Read()) { var nBits = input.ReadBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public ac_BarringInfo_Type Decode(BitArrayInputStream input) { var type = new ac_BarringInfo_Type(); type.InitDefaults(); var stream = new BitMaskStream(input, 2); type.ac_BarringForEmergency = input.ReadBit() == 1; if (stream.Read()) { type.ac_BarringForMO_Signalling = AC_BarringConfig.PerDecoder.Instance.Decode(input); } if (stream.Read()) { type.ac_BarringForMO_Data = AC_BarringConfig.PerDecoder.Instance.Decode(input); } return type; }
public MobilityControlInfo Decode(BitArrayInputStream input) { BitMaskStream stream2; MobilityControlInfo info = new MobilityControlInfo(); info.InitDefaults(); bool flag = input.ReadBit() != 0; BitMaskStream stream = new BitMaskStream(input, 4); info.targetPhysCellId = input.ReadBits(9); if (stream.Read()) { info.carrierFreq = CarrierFreqEUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { info.carrierBandwidth = CarrierBandwidthEUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { info.additionalSpectrumEmission = input.ReadBits(5) + 1; } int nBits = 3; info.t304 = (t304_Enum)input.ReadBits(nBits); info.newUE_Identity = input.ReadBitString(0x10); info.radioResourceConfigCommon = RadioResourceConfigCommon.PerDecoder.Instance.Decode(input); if (stream.Read()) { info.rach_ConfigDedicated = RACH_ConfigDedicated.PerDecoder.Instance.Decode(input); } if (flag) { stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { info.carrierFreq_v9e0 = CarrierFreqEUTRA_v9e0.PerDecoder.Instance.Decode(input); } } if (flag) { stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { nBits = 1; info.drb_ContinueROHC_r11 = (drb_ContinueROHC_r11_Enum)input.ReadBits(nBits); } } return info; }
public MeasObjectCDMA2000 Decode(BitArrayInputStream input) { MeasObjectCDMA2000 tcdma = new MeasObjectCDMA2000(); tcdma.InitDefaults(); input.ReadBit(); BitMaskStream stream = new BitMaskStream(input, 1); BitMaskStream stream2 = new BitMaskStream(input, 4); int nBits = 1; tcdma.cdma2000_Type = (CDMA2000_Type)input.ReadBits(nBits); tcdma.carrierFreq = CarrierFreqCDMA2000.PerDecoder.Instance.Decode(input); if (stream2.Read()) { tcdma.searchWindowSize = input.ReadBits(4); } if (stream.Read()) { tcdma.offsetFreq = input.ReadBits(5) + -15; } if (stream2.Read()) { tcdma.cellsToRemoveList = new List<long>(); nBits = 5; int num3 = input.ReadBits(nBits) + 1; for (int i = 0; i < num3; i++) { long item = input.ReadBits(5) + 1; tcdma.cellsToRemoveList.Add(item); } } if (stream2.Read()) { tcdma.cellsToAddModList = new List<CellsToAddModCDMA2000>(); nBits = 5; int num6 = input.ReadBits(nBits) + 1; for (int j = 0; j < num6; j++) { CellsToAddModCDMA2000 dcdma = CellsToAddModCDMA2000.PerDecoder.Instance.Decode(input); tcdma.cellsToAddModList.Add(dcdma); } } if (stream2.Read()) { tcdma.cellForWhichToReportCGI = input.ReadBits(9); } return tcdma; }
public RSTD_InterFreqInfo_r10 Decode(BitArrayInputStream input) { RSTD_InterFreqInfo_r10 _r = new RSTD_InterFreqInfo_r10(); _r.InitDefaults(); bool flag = input.ReadBit() != 0; _r.carrierFreq_r10 = input.ReadBits(0x10); _r.measPRS_Offset_r10 = input.ReadBits(6); if (flag) { BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _r.carrierFreq_v1090 = input.ReadBits(0x12) + 0x10000; } } return _r; }
public CQI_ReportConfig Decode(BitArrayInputStream input) { CQI_ReportConfig config = new CQI_ReportConfig(); config.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { int nBits = 3; config.cqi_ReportModeAperiodic = (CQI_ReportModeAperiodic)input.ReadBits(nBits); } config.nomPDSCH_RS_EPRE_Offset = input.ReadBits(3) + -1; if (stream.Read()) { config.cqi_ReportPeriodic = CQI_ReportPeriodic.PerDecoder.Instance.Decode(input); } return config; }
public setup_Type Decode(BitArrayInputStream input) { setup_Type type = new setup_Type(); type.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); int nBits = 3; type.srs_BandwidthConfig = (srs_BandwidthConfig_Enum)input.ReadBits(nBits); nBits = 4; type.srs_SubframeConfig = (srs_SubframeConfig_Enum)input.ReadBits(nBits); type.ackNackSRS_SimultaneousTransmission = input.ReadBit() == 1; if (stream.Read()) { nBits = 1; type.srs_MaxUpPts = (srs_MaxUpPts_Enum)input.ReadBits(nBits); } return type; }
public CSG_AllowedReportingCells_r9 Decode(BitArrayInputStream input) { CSG_AllowedReportingCells_r9 _r = new CSG_AllowedReportingCells_r9(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _r.physCellIdRangeUTRA_FDDList_r9 = new List<PhysCellIdRangeUTRA_FDD_r9>(); int nBits = 2; int num3 = input.ReadBits(nBits) + 1; for (int i = 0; i < num3; i++) { PhysCellIdRangeUTRA_FDD_r9 item = PhysCellIdRangeUTRA_FDD_r9.PerDecoder.Instance.Decode(input); _r.physCellIdRangeUTRA_FDDList_r9.Add(item); } } return _r; }