A Discrete-Event Network Simulator
API
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ns3 Namespace Reference

Every class exported by the ns3 library is enclosed in the ns3 namespace. More...

Namespaces

namespace  addressUtils
 
namespace  anonymous_namespace{pyviz.cc}
 
namespace  anonymous_namespace{system-path.cc}
 
namespace  anonymous_namespace{time.cc}
 Unnamed namespace.
 
namespace  anonymous_namespace{visual-simulator-impl.cc}
 
namespace  anonymous_namespace{wifi-helper.cc}
 
namespace  aodv
 
namespace  CommandLineHelper
 Helpers for CommandLine to specialize UserItem.
 
namespace  Config
 Namespace for the various functions implementing the Config system.
 
namespace  dot11s
 
namespace  dsdv
 
namespace  dsr
 
namespace  energy
 
namespace  FatalImpl
 Implementation namespace for fatal error handlers.
 
namespace  flame
 
namespace  Hash
 Hash function implementations.
 
namespace  int64x64
 
namespace  internal
 Namespace for implementation details.
 
namespace  lorawan
 
namespace  lrwpan
 
namespace  ofi
 
namespace  olsr
 
namespace  SystemPath
 Namespace for various file and directory path functions.
 
namespace  test
 
namespace  tests
 Namespace for test files, TestCases and TestSuites.
 
namespace  TracedValueCallback
 TracedValue Callback function types.
 

Classes

class  A2A4RsrqHandoverAlgorithm
 Handover algorithm implementation based on RSRQ measurements, Event A2 and Event A4. More...
 
class  A3RsrpHandoverAlgorithm
 Implementation of the strongest cell handover algorithm, based on RSRP measurements and Event A3. More...
 
class  AarfcdWifiManager
 an implementation of the AARF-CD algorithm More...
 
struct  AarfcdWifiRemoteStation
 hold per-remote-station state for AARF-CD Wifi manager. More...
 
class  AarfWifiManager
 AARF Rate control algorithm. More...
 
struct  AarfWifiRemoteStation
 hold per-remote-station state for AARF Wifi manager. More...
 
class  AccessorHelper
 Basic functionality for accessing class attributes via class data members, or get functor/set methods. More...
 
struct  AccessorTrait
 The non-const and non-reference type equivalent to T . More...
 
class  AcousticModemEnergyModel
 WHOI micro-modem energy model. More...
 
class  AcousticModemEnergyModelHelper
 Assign AcousticModemEnergyModel to uan devices. More...
 
class  AddbaExtension
 The IEEE 802.11 ADDBA Extension Element (Sec. More...
 
class  Address
 a polymophic address class More...
 
class  AddressChecker
 
class  AddressValue
 
class  AdhocAlohaNoackIdealPhyHelper
 create the AlohaNoackNetDevice More...
 
class  AdhocWifiMac
 Wifi MAC high model for an ad-hoc Wifi MAC. More...
 
class  AdvancedApEmlsrManager
 AdvancedApEmlsrManager is an advanced AP EMLSR manager. More...
 
class  AdvancedEmlsrManager
 AdvancedEmlsrManager is an advanced EMLSR manager. More...
 
struct  AllocationRetentionPriority
 3GPP 23.203 Section 6.1.7.3 Allocation and Retention Priority characteristics More...
 
struct  AllSupportedRates
 Struct containing all supported rates. More...
 
class  AlohaNoackMacHeader
 Header for the AlohaNoack NetDevice. More...
 
class  AlohaNoackNetDevice
 This devices implements the following features: More...
 
class  AlwaysLosChannelConditionModel
 Models an always in-LoS condition model. More...
 
class  AmpduSubframeHeader
 Headers for A-MPDU subframes. More...
 
class  AmpduTag
 The aim of the AmpduTag is to provide means for a MAC to specify that a packet includes A-MPDU since this is done in HT-SIG and there is no HT-SIG representation in ns-3. More...
 
class  AmrrWifiManager
 AMRR Rate control algorithm. More...
 
struct  AmrrWifiRemoteStation
 hold per-remote-station state for AMRR Wifi manager. More...
 
class  AmsduSubframeHeader
 Headers for A-MSDU subframes. More...
 
class  Angles
 Class holding the azimuth and inclination angles of spherical coordinates. More...
 
class  AnimationInterface
 Interface to network animator. More...
 
class  AnimByteTag
 Byte tag using by Anim to uniquely identify packets. More...
 
class  AntennaModel
 interface for antenna radiation pattern models More...
 
class  AodvHelper
 Helper class that adds AODV routing to nodes. More...
 
class  AparfWifiManager
 APARF Power and rate control algorithm. More...
 
struct  AparfWifiRemoteStation
 Hold per-remote-station state for APARF Wifi manager. More...
 
class  ApEmlsrManager
 ApEmlsrManager is an abstract base class defining the API that EHT AP MLDs with EMLSR activated can use to handle the operations on the EMLSR links of EMLSR clients. More...
 
class  Application
 The base class for all ns3 applications. More...
 
class  ApplicationContainer
 holds a vector of ns3::Application pointers. More...
 
class  ApplicationHelper
 A helper to make it easier to instantiate an application on a set of nodes. More...
 
class  ApplicationPacketProbe
 Probe to translate from a TraceSource to two more easily parsed TraceSources. More...
 
class  ApWifiMac
 Wi-Fi AP state machine. More...
 
class  ArfWifiManager
 ARF Rate control algorithm. More...
 
struct  ArfWifiRemoteStation
 hold per-remote-station state for ARF Wifi manager. More...
 
class  ArpCache
 An ARP cache. More...
 
class  ArpHeader
 The packet header for an ARP packet. More...
 
class  ArpL3Protocol
 An implementation of the ARP protocol. More...
 
class  ArpQueueDiscItem
 ArpQueueDiscItem is a subclass of QueueDiscItem which stores ARP packets. More...
 
class  AsciiFile
 A class representing an ascii file. More...
 
class  AsciiTraceHelper
 Manage ASCII trace files for device models. More...
 
class  AsciiTraceHelperForDevice
 Base class providing common user-level ascii trace operations for helpers representing net devices. More...
 
class  AsciiTraceHelperForIpv4
 Base class providing common user-level ascii trace operations for helpers representing IPv4 protocols . More...
 
class  AsciiTraceHelperForIpv6
 Base class providing common user-level ascii trace operations for helpers representing IPv6 protocols . More...
 
class  Asn1Header
 This class has the purpose to encode Information Elements according to ASN.1 syntax, as defined in ITU-T X-691. More...
 
class  AthstatsHelper
 create AthstatsWifiTraceSink instances and connect them to wifi devices More...
 
class  AthstatsWifiTraceSink
 trace sink for wifi device that mimics madwifi's athstats tool. More...
 
class  AttributeAccessor
 allow setting and getting the value of an attribute. More...
 
class  AttributeChecker
 Represent the type of an attribute. More...
 
class  AttributeConstructionList
 List of Attribute name, value and checker triples used to construct Objects. More...
 
class  AttributeContainerChecker
 AttributeChecker implementation for AttributeContainerValue. More...
 
class  AttributeContainerValue
 A container for one type of attribute. More...
 
class  AttributeDefaultIterator
 Iterator to iterate on the default values of attributes of an ns3::Object. More...
 
class  AttributeIterator
 Iterator to iterate on the values of attributes of an ns3::Object. More...
 
class  AttributeValue
 Hold a value for an Attribute. More...
 
class  Average
 Simple average, min, max and std. More...
 
class  Backoff
 The backoff class is used for calculating backoff times when many net devices can write to the same channel. More...
 
struct  BandInfo
 The building block of a SpectrumModel. More...
 
class  BandwidthManager
 This class manage the bandwidth request and grant mechanism. More...
 
class  BandwidthRequestHeader
 This class implements the bandwidth-request mac Header as described by IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems 6.3.2.1.2 Bandwidth request header, page 38. More...
 
class  BaseStationNetDevice
 BaseStation NetDevice. More...
 
class  BasicEnergyHarvesterHelper
 Creates a BasicEnergyHarvester object. More...
 
class  BasicEnergySourceHelper
 Creates a BasicEnergySource object. More...
 
class  BernoulliRandomVariable
 The Bernoulli distribution Random Number Generator (RNG). More...
 
class  BinaryErrorModel
 The simplest error model, corrupts even packets and does not corrupt odd ones. More...
 
class  BinomialRandomVariable
 The binomial distribution Random Number Generator (RNG). More...
 
class  BitDeserializer
 Bit deserializer. More...
 
class  BitSerializer
 Bit serializer. More...
 
class  BlockAckAgreement
 Maintains information for a block ack agreement. More...
 
class  BlockAckManager
 Manages all block ack agreements for an originator station. More...
 
struct  BlockAckReqType
 The different BlockAckRequest variants. More...
 
struct  BlockAckType
 The different BlockAck variants. More...
 
class  BlockAckWindow
 Block ack window. More...
 
class  BooleanChecker
 
class  BooleanProbe
 This class is designed to probe an underlying ns3 TraceSource exporting a bool. More...
 
class  BooleanValue
 
struct  BoundCallbackArgument
 This structure is used as interface between trace sources and RadioBearerStatsCalculator. More...
 
class  Box
 a 3d box More...
 
class  BoxChecker
 
class  BoxValue
 
class  BridgeChannel
 Virtual channel implementation for bridges (BridgeNetDevice). More...
 
class  BridgeHelper
 Add capability to bridge multiple LAN segments (IEEE 802.1D bridging) More...
 
class  BridgeNetDevice
 a virtual net device that bridges multiple LAN segments More...
 
class  BriteTopologyHelper
 Interface with BRITE, the Boston university Representative Internet Topology gEnerator. More...
 
class  BSLinkManager
 BaseStation Link Manager. More...
 
class  BsrLteControlMessage
 The uplink BsrLteControlMessage defines the specific extension of the CE element for reporting the buffer status report. More...
 
class  BSScheduler
 BaseStation Scheduler. More...
 
class  BSSchedulerRtps
 This class implements a simple downlink scheduler for rtPS flows. More...
 
class  BSSchedulerSimple
 BaseStation Scheduler - simplified. More...
 
class  BsServiceFlowManager
 BsServiceFlowManager. More...
 
class  Buffer
 automatically resized byte buffer More...
 
class  BufferSizeLevelBsr
 BufferSizeLevelBsr class. More...
 
struct  BuildBroadcastListElement_s
 See section 4.3.11 buildBroadcastListElement. More...
 
struct  BuildDataListElement_s
 See section 4.3.8 buildDataListElement. More...
 
class  Building
 a 3d building block More...
 
class  BuildingContainer
 keep track of a set of building pointers. More...
 
class  BuildingList
 Container for Building class. More...
 
class  BuildingListPriv
 private implementation detail of the BuildingList API. More...
 
class  BuildingsChannelConditionModel
 Determines the channel condition based on the buildings deployed in the scenario. More...
 
class  BuildingsHelper
 Helper used to install a MobilityBuildingInfo into a set of nodes. More...
 
class  BuildingsPropagationLossModel
 This model provides means for simulating the following propagation phenomena in the presence of buildings: More...
 
struct  BuildRarListElement_s
 See section 4.3.10 buildRARListElement. More...
 
class  BulkSendApplication
 Send as much traffic as possible, trying to fill the bandwidth. More...
 
class  BulkSendHelper
 A helper to make it easier to instantiate an ns3::BulkSendApplication on a set of nodes. More...
 
class  BurstErrorModel
 Determine which bursts of packets are errored corresponding to an underlying distribution, burst rate, and burst size. More...
 
class  BurstProfileManager
 Profile manager for burst communications. More...
 
struct  BwPart_s
 See section 4.3.28 bwPart. More...
 
class  ByteTagIterator
 Iterator over the set of byte tags in a packet. More...
 
class  ByteTagList
 keep track of the byte tags stored in a packet. More...
 
struct  ByteTagListData
 Internal representation of the byte tags stored in a packet. More...
 
class  ByteTagListDataFreeList
 Container class for struct ByteTagListData. More...
 
class  CalendarScheduler
 a calendar queue event scheduler More...
 
class  Callback
 Callback template class. More...
 
class  CallbackBase
 Base class for Callback class. More...
 
class  CallbackChecker
 
class  CallbackComponent
 Stores a component of a callback, i.e., the callable object or a bound argument. More...
 
class  CallbackComponent< T, false >
 Partial specialization of class CallbackComponent with isComparable equal to false. More...
 
class  CallbackComponentBase
 Abstract base class for CallbackComponent. More...
 
class  CallbackImpl
 CallbackImpl class with varying numbers of argument types. More...
 
class  CallbackImplBase
 Abstract base class for CallbackImpl Provides reference counting and equality test. More...
 
struct  CallbackTraits
 
struct  CallbackTraits< Ptr< T > >
 Trait class to convert a pointer into a reference, used by MemPtrCallBackImpl. More...
 
class  CallbackValue
 
struct  CanBeInPerStaProfile
 Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element. More...
 
struct  CanBeInPerStaProfile< MultiLinkElement >
 Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element. More...
 
struct  CanBeInPerStaProfile< ReducedNeighborReport >
 Indicate which Information Elements cannot be included in a Per-STA Profile subelement of a Basic Multi-Link Element (see Sec. More...
 
struct  CanBeInPerStaProfile< Ssid >
 Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element. More...
 
struct  CanBeInPerStaProfile< TidToLinkMapping >
 Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element. More...
 
class  CandidateQueue
 A Candidate Queue used in routing calculations. More...
 
class  CapabilityInformation
 Capability information. More...
 
class  CaraWifiManager
 implement the CARA rate control algorithm More...
 
struct  CaraWifiRemoteStation
 hold per-remote-station state for CARA Wifi manager. More...
 
class  CcHelper
 Creation and configuration of Component Carrier entities. More...
 
class  Channel
 Abstract Channel Base Class. More...
 
class  ChannelAccessManager
 Manage a set of ns3::Txop. More...
 
class  ChannelCondition
 Carries information about the LOS/NLOS channel state. More...
 
class  ChannelConditionModel
 Models the channel condition. More...
 
class  ChannelList
 the list of simulation channels. More...
 
class  ChannelListPriv
 private implementation detail of the ChannelList API. More...
 
class  Chunk
 abstract base class for ns3::Header and ns3::Trailer More...
 
class  Cid
 Cid class. More...
 
class  CidFactory
 This class is used exclusively by the BS to allocate CIDs to new connections. More...
 
class  CircularApertureAntennaModel
 Circular Aperture Antenna Model. More...
 
class  ClassificationRuleVectorTlvValue
 this class implements the classifier descriptor as a tlv vector More...
 
class  ClickInternetStackHelper
 aggregate Click/IP/TCP/UDP functionality to existing Nodes. More...
 
class  CobaltQueueDisc
 Cobalt packet queue disc. More...
 
class  CoDelQueueDisc
 A CoDel packet queue disc. More...
 
class  CommandLine
 Parse command-line arguments. More...
 
struct  CommonInfoBasicMle
 Common Info field of the Basic Multi-Link element. More...
 
class  ComponentCarrier
 ComponentCarrier Object, it defines a single Carrier This is the parent class for both ComponentCarrierBaseStation and ComponentCarrierUe. More...
 
class  ComponentCarrierBaseStation
 Defines a Base station, that is a ComponentCarrier but with a cell Id. More...
 
class  ComponentCarrierEnb
 Defines a single carrier for enb, and contains pointers to LteEnbPhy, LteEnbMac, LteFfrAlgorithm, and FfMacScheduler objects. More...
 
class  ComponentCarrierUe
 ComponentCarrierUe Object, it defines a single Carrier for the Ue. More...
 
class  ConfigStore
 
class  ConnectionManager
 The same connection manager class serves both for BS and SS though some functions are exclusive to only one of them. More...
 
class  ConstantAccelerationMobilityModel
 Mobility model for which the current acceleration does not change once it has been set and until it is set again explicitly to a new value. More...
 
class  ConstantObssPdAlgorithm
 Constant OBSS PD algorithm. More...
 
class  ConstantPositionMobilityModel
 Mobility model for which the current position does not change once it has been set and until it is set again explicitly to a new value. More...
 
class  ConstantRandomVariable
 The Random Number Generator (RNG) that returns a constant. More...
 
class  ConstantRateWifiManager
 use constant rates for data and RTS transmissions More...
 
class  ConstantSpectrumPropagationLossModel
 A Constant (fixed) propagation loss. More...
 
class  ConstantSpeedPropagationDelayModel
 the propagation speed is constant More...
 
class  ConstantVelocityHelper
 Utility class used to move node with constant velocity. More...
 
class  ConstantVelocityMobilityModel
 Mobility model for which the current speed does not change once it has been set and until it is set again explicitly to a new value. More...
 
class  CosineAntennaModel
 Cosine Antenna Model. More...
 
class  Cost231PropagationLossModel
 The COST-Hata-Model is the most often cited of the COST 231 models. More...
 
class  CounterCalculator
 Template class CounterCalculator. More...
 
class  CqaFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for the Channel and QoS Aware Scheduler. More...
 
struct  CqasFlowPerf_t
 CGA Flow Performance structure. More...
 
struct  CqiConfig_s
 See section 4.3.19 cqiConfig. More...
 
struct  CqiListElement_s
 See section 4.3.24 cqiListElement. More...
 
class  CsmaChannel
 Csma Channel. More...
 
class  CsmaDeviceRec
 CsmaNetDevice Record. More...
 
class  CsmaHelper
 build a set of CsmaNetDevice objects More...
 
class  CsmaNetDevice
 A Device for a Csma Network Link. More...
 
class  CsmaStarHelper
 A helper to make it easier to create a star topology with Csma links. More...
 
class  CsParameters
 CsParameters class. More...
 
class  CsParamVectorTlvValue
 this class implements the convergence sub-layer descriptor as a tlv vector More...
 
class  CsvReader
 Provides functions for parsing and extracting data from Comma Separated Value (CSV) formatted text files. More...
 
class  CtrlBAckRequestHeader
 Headers for BlockAckRequest. More...
 
class  CtrlBAckResponseHeader
 Headers for BlockAck response. More...
 
class  CtrlTriggerHeader
 Headers for Trigger frames. More...
 
class  CtrlTriggerUserInfoField
 User Info field of Trigger frames. More...
 
class  DataCalculator
 Calculates data during a simulation. More...
 
class  DataCollectionObject
 Base class for data collection framework objects. More...
 
class  DataCollector
 Collects data. More...
 
class  DataOutputCallback
 Callback class for the DataOutput classes. More...
 
class  DataOutputInterface
 Abstract Data Output Interface class s. More...
 
class  DataRate
 Class for representing data rates. More...
 
class  DataRateChecker
 
class  DataRateValue
 
class  Dcd
 This class implements Downlink channel descriptor as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.1 Downlink Channel Descriptor (DCD) message, page 45. More...
 
class  DcdChannelEncodings
 This class implements the DCD channel encodings as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 11.4.1 DCD channel encodings, page 659. More...
 
class  DefaultApEmlsrManager
 DefaultApEmlsrManager is the default AP EMLSR manager. More...
 
struct  DefaultDeleter
 A template used to delete objects by the ns3::SimpleRefCount templates when the last reference to an object they manage disappears. More...
 
class  DefaultEmlsrManager
 DefaultEmlsrManager is the default EMLSR manager. More...
 
class  DefaultSimulatorImpl
 The default single process simulator implementation. More...
 
class  DelayJitterEstimation
 Quick and dirty delay and jitter estimation, implementing the jitter algorithm originally from RFC 1889 (RTP), and unchanged in RFC 3550 More...
 
class  DesMetrics
 Event trace data collector for the DES Metrics project. More...
 
struct  DestinationPoint
 Keeps last movement schedule. More...
 
class  DeterministicRandomVariable
 The Random Number Generator (RNG) that returns a predetermined sequence. More...
 
class  DeviceEnergyModelHelper
 Creates DeviceEnergyModel objects. More...
 
class  DeviceNameTag
 This class implements a tag that carries the ns3 device name from where a packet is coming. More...
 
class  DhcpClient
 Implements the functionality of a DHCP client. More...
 
class  DhcpHeader
 BOOTP header with DHCP messages. More...
 
class  DhcpHelper
 The helper class used to configure and install DHCP applications on nodes. More...
 
class  DhcpServer
 Implements the functionality of a DHCP server. More...
 
class  DistributedSimulatorImpl
 Distributed simulator implementation using lookahead. More...
 
class  DlCqiLteControlMessage
 The downlink CqiLteControlMessage defines an ideal list of feedback about the channel quality sent by the UE to the eNodeB. More...
 
struct  DlDciListElement_s
 See section 4.3.1 dlDciListElement. More...
 
class  DlDciLteControlMessage
 The Downlink Data Control Indicator messages defines the RB allocation for the users in the downlink. More...
 
class  DlFramePrefixIe
 This class implements the DL Frame Prefix IE as described by IEEE-802.16 standard. More...
 
class  DlHarqFeedbackLteControlMessage
 The downlink DlHarqFeedbackLteControlMessage defines the specific messages for transmitting the DL HARQ feedback through PUCCH. More...
 
struct  DlInfoListElement_s
 See section 4.3.23 dlInfoListElement. More...
 
class  DlMap
 This class implements DL-MAP as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 8.2.1.8.1 Compressed DL-MAP, page 402. More...
 
struct  DlSchedulingCallbackInfo
 DlSchedulingCallbackInfo structure. More...
 
class  Dot11sStack
 Helper class to allow easy installation of 802.11s stack. More...
 
class  DoubleProbe
 This class is designed to probe an underlying ns3 TraceSource exporting a double. More...
 
class  DoubleValue
 This class can be used to hold variables of floating point type such as 'double' or 'float'. More...
 
class  DownlinkLteGlobalPathlossDatabase
 Store the last pathloss value for each TX-RX pair for downlink. More...
 
class  DpdkNetDevice
 a NetDevice to read/write network traffic from/into a Dpdk enabled port. More...
 
class  DpdkNetDeviceHelper
 build a DpdkNetDevice object attached to a physical network interface More...
 
class  DrbActivator
 DrbActivatior allows user to activate bearers for UEs when EPC is not used. More...
 
class  DropTailQueue
 A FIFO packet queue that drops tail-end packets on overflow. More...
 
struct  DrxConfig_s
 See section 4.3.16 drxConfig. More...
 
class  DsaAck
 This class implements the DSA-ACK message described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.12 DSA-ACK message, page 64. More...
 
class  DsaReq
 This class implements the DSA-REQ message described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.10 DSA-REQ message, page 62. More...
 
class  DsaRsp
 This class implements the DSA-RSP message described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.11 DSA-RSP message, page 63. More...
 
class  DsdvHelper
 Helper class that adds DSDV routing to nodes. More...
 
class  DsrHelper
 DSR helper class to manage creation of DSR routing instance and to insert it on a node as a sublayer between transport and IP layers. More...
 
class  DsrMainHelper
 Helper class that adds DSR routing to nodes. More...
 
class  DsssErrorRateModel
 an implementation of DSSS error rate model More...
 
class  DsssParameterSet
 The DSSS Parameter Set. More...
 
class  DsssPhy
 PHY entity for HR/DSSS (11b) More...
 
class  DsssPpdu
 DSSS (HR/DSSS) PPDU (11b) More...
 
class  DynamicQueueLimits
 DynamicQueueLimits would be used in conjunction with a producer/consumer type queue (possibly a netdevice queue). More...
 
class  EdcaParameterSet
 The EDCA Parameter Set. More...
 
class  EhtCapabilities
 The IEEE 802.11be EHT Capabilities. More...
 
class  EhtConfiguration
 EHT configuration. More...
 
class  EhtFrameExchangeManager
 EhtFrameExchangeManager handles the frame exchange sequences for EHT stations. More...
 
struct  EhtMacCapabilities
 EHT MAC Capabilities Info subfield. More...
 
struct  EhtMcsAndNssSet
 EHT MCS and NSS Set subfield. More...
 
class  EhtOperation
 EHT Operation Information Element. More...
 
class  EhtPhy
 PHY entity for EHT (11be) More...
 
struct  EhtPhyCapabilities
 EHT PHY Capabilities Info subfield. More...
 
class  EhtPpdu
 EHT PPDU (11be) More...
 
struct  EhtPpeThresholds
 EHT PPE Thresholds subfield. More...
 
class  EmlsrManager
 EmlsrManager is an abstract base class defining the API that EHT non-AP MLDs with EMLSR activated can use to handle the operations on the EMLSR links. More...
 
class  EmpiricalRandomVariable
 The Random Number Generator (RNG) that has a specified empirical distribution. More...
 
class  Empty
 Empty class, used as a default parent class for SimpleRefCount. More...
 
class  EmptyAttributeAccessor
 An accessor for EmptyAttributeValue. More...
 
class  EmptyAttributeChecker
 A checker for EmptyAttributeValue. More...
 
class  EmptyAttributeValue
 A class for an empty attribute value. More...
 
class  EmuEpcHelper
 Create an EPC network using EmuFdNetDevice. More...
 
class  EmuFdNetDeviceHelper
 build a set of FdNetDevice objects attached to a physical network interface More...
 
class  EnbMacMemberFfMacCschedSapUser
 EnbMacMemberFfMacCschedSapUser class. More...
 
class  EnbMacMemberFfMacSchedSapUser
 EnbMacMemberFfMacSchedSapUser class. More...
 
class  EnbMacMemberLteEnbCmacSapProvider
 EnbMacMemberLteEnbCmacSapProvider class. More...
 
class  EnbMacMemberLteEnbPhySapUser
 -------— PHY-SAP More...
 
class  EnbMacMemberLteMacSapProvider
 EnbMacMemberLteMacSapProvider class. More...
 
class  EnbMemberLteEnbPhySapProvider
 
class  EnbRrcMemberLteEnbCmacSapUser
 Class for forwarding CMAC SAP User functions. More...
 
class  EnergyHarvesterHelper
 Creates EnergyHarvester objects. More...
 
class  EnergySourceHelper
 Creates EnergySource objects. More...
 
class  EnumChecker
 
class  EnumValue
 Hold variables of type enum. More...
 
class  EnvironmentVariable
 Hold key,value dictionaries for environment variables. More...
 
class  EpcEnbApplication
 This application is installed inside eNBs and provides the bridge functionality for user data plane packets between the radio interface and the S1-U interface. More...
 
class  EpcEnbS1SapProvider
 This class implements the Service Access Point (SAP) between the LteEnbRrc and the EpcEnbApplication. More...
 
class  EpcEnbS1SapUser
 This class implements the Service Access Point (SAP) between the LteEnbRrc and the EpcEnbApplication. More...
 
class  EpcHelper
 Base helper class to handle the creation of the EPC entities. More...
 
class  EpcMmeApplication
 This application implements the Mobility Management Entity (MME) according to the 3GPP TS 23.401 document. More...
 
class  EpcPgwApplication
 This application implements the Packet Data Network (PDN) Gateway Entity (PGW) according to the 3GPP TS 23.401 document. More...
 
class  EpcS11Sap
 EpcS11Sap. More...
 
class  EpcS11SapMme
 MME side of the S11 Service Access Point (SAP), provides the MME methods to be called when an S11 message is received by the MME. More...
 
class  EpcS11SapSgw
 SGW side of the S11 Service Access Point (SAP), provides the SGW methods to be called when an S11 message is received by the SGW. More...
 
class  EpcS1apSap
 Base class that defines EPC S1-AP Service Access Point (SAP) interface. More...
 
class  EpcS1apSapEnb
 eNB side of the S1-AP Service Access Point (SAP), provides the eNB methods to be called when an S1-AP message is received by the eNB. More...
 
class  EpcS1apSapMme
 MME side of the S1-AP Service Access Point (SAP), provides the MME methods to be called when an S1-AP message is received by the MME. More...
 
class  EpcSgwApplication
 This application implements the Serving Gateway Entity (SGW) according to the 3GPP TS 23.401 document. More...
 
class  EpcTestRrc
 RRC stub providing a testing S1 SAP user to be used with the EpcEnbApplication. More...
 
class  EpcTft
 This class implements the EPS bearer Traffic Flow Template (TFT), which is the set of all packet filters associated with an EPS bearer. More...
 
class  EpcTftClassifier
 classifies IP packets according to Traffic Flow Templates (TFTs) More...
 
class  EpcUeNas
 
class  EpcX2
 This entity is installed inside an eNB and provides the functionality for the X2 interface. More...
 
class  EpcX2HandoverCancelHeader
 EpcX2HandoverCancelHeader. More...
 
class  EpcX2HandoverPreparationFailureHeader
 EpcX2HandoverPreparationFailureHeader. More...
 
class  EpcX2HandoverRequestAckHeader
 EpcX2HandoverRequestAckHeader. More...
 
class  EpcX2HandoverRequestHeader
 EpcX2HandoverRequestHeader. More...
 
class  EpcX2Header
 
class  EpcX2LoadInformationHeader
 EpcX2LoadInformationHeader. More...
 
class  EpcX2ResourceStatusUpdateHeader
 EpcX2ResourceStatusUpdateHeader. More...
 
class  EpcX2Sap
 The X2 SAP defines the service between the X2 entity and the RRC entity. More...
 
class  EpcX2SapProvider
 These service primitives of this part of the X2 SAP are provided by the X2 entity and issued by RRC entity. More...
 
class  EpcX2SapUser
 These service primitives of this part of the X2 SAP are provided by the RRC entity and issued by the X2 entity. More...
 
class  EpcX2SnStatusTransferHeader
 EpcX2SnStatusTransferHeader. More...
 
class  EpcX2SpecificEpcX2SapProvider
 EpcX2SpecificEpcX2SapProvider. More...
 
class  EpcX2SpecificEpcX2SapUser
 EpcX2SpecificEpcX2SapUser. More...
 
class  EpcX2UeContextReleaseHeader
 EpcX2UeContextReleaseHeader. More...
 
class  EpsBearer
 This class contains the specification of EPS Bearers. More...
 
class  EpsBearerTag
 Tag used to define the RNTI and EPS bearer ID for packets interchanged between the EpcEnbApplication and the LteEnbNetDevice. More...
 
class  ErlangRandomVariable
 The Erlang distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  ErpInformation
 The ErpInformation Information Element. More...
 
class  ErpOfdmPhy
 PHY entity for ERP-OFDM (11g) More...
 
class  ErpOfdmPpdu
 ERP-OFDM PPDU (11g) More...
 
class  ErrorChannel
 A Error channel, introducing deterministic delays on even/odd packets. More...
 
class  ErrorModel
 General error model that can be used to corrupt packets. More...
 
class  ErrorRateModel
 the interface for Wifi's error models More...
 
class  EthernetHeader
 Packet header for Ethernet. More...
 
class  EthernetTrailer
 Packet trailer for Ethernet. More...
 
struct  EutraChannelNumbers
 Table 5.7.3-1 "E-UTRA channel numbers" from 3GPP TS 36.101 The table was converted to C syntax doing a cut & paste from TS 36.101 and running the following filter: awk '{if ((NR % 7) == 1) printf("{"); printf ("%s",$0); if ((NR % 7) == 0) printf("},\n"); else printf(", ");}' | sed 's/ – /, /g'. More...
 
class  EutranMeasurementMapping
 Implements the E-UTRA measurement mappings defined in 3GPP TS 36.133 section 9.1 E-UTRAN measurements. More...
 
class  Event
 handles interference calculations More...
 
class  EventGarbageCollector
 An object that tracks scheduled events and automatically cancels them when it is destroyed. More...
 
class  EventId
 An identifier for simulation events. More...
 
class  EventImpl
 A simulation event. More...
 
class  ExampleAsTestCase
 Execute an example program as a test, by comparing the output to a reference file. More...
 
class  ExampleAsTestSuite
 Execute an example program as a test suite. More...
 
class  ExponentialRandomVariable
 The exponential distribution Random Number Generator (RNG). More...
 
class  ExtendedCapabilities
 The Extended Capabilities Information Element. More...
 
class  ExtendedSupportedRatesIE
 The Extended Supported Rates Information Element. More...
 
struct  FcfsPrio
 Definition of priority for container queues. More...
 
class  FcfsWifiQueueScheduler
 FcfsWifiQueueScheduler is a wifi queue scheduler that serves data frames in a first come first serve fashion. More...
 
class  FdBetFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Frequency Domain Blind Equal Throughput scheduler. More...
 
struct  fdbetsFlowPerf_t
 fdbetsFlowPerf_t structure More...
 
class  FdMtFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Frequency Domain Maximize Throughput scheduler. More...
 
class  FdNetDevice
 a NetDevice to read/write network traffic from/into a file descriptor. More...
 
class  FdNetDeviceFdReader
 This class performs the actual data reading from the sockets. More...
 
class  FdNetDeviceHelper
 build a set of FdNetDevice objects Normally we eschew multiple inheritance, however, the classes PcapUserHelperForDevice and AsciiTraceUserHelperForDevice are treated as "mixins". More...
 
class  FdReader
 A class that asynchronously reads from a file descriptor. More...
 
class  FdTbfqFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Frequency Domain Token Bank Fair Queue scheduler. More...
 
struct  fdtbfqsFlowPerf_t
 Flow information. More...
 
class  FfMacCschedSapProvider
 Provides the CSCHED SAP. More...
 
class  FfMacCschedSapUser
 FfMacCschedSapUser class. More...
 
class  FfMacSchedSapProvider
 Provides the SCHED SAP. More...
 
class  FfMacSchedSapUser
 FfMacSchedSapUser class. More...
 
class  FfMacScheduler
 This abstract base class identifies the interface by means of which the helper object can plug on the MAC a scheduler implementation based on the FF MAC Sched API. More...
 
struct  FfrEnhancedDownlinkDefaultConfiguration
 FfrEnhancedDownlinkDefaultConfiguration structure. More...
 
struct  FfrEnhancedUplinkDefaultConfiguration
 FfrEnhancedUplinkDefaultConfiguration structure. More...
 
struct  FfrSoftDownlinkDefaultConfiguration
 FfrSoftDownlinkDefaultConfiguration structure. More...
 
struct  FfrSoftUplinkDefaultConfiguration
 FfrSoftUplinkDefaultConfiguration structure. More...
 
class  FifoQueueDisc
 Simple queue disc implementing the FIFO (First-In First-Out) policy. More...
 
class  FileAggregator
 This aggregator sends values it receives to a file. More...
 
class  FileConfig
 base class for ConfigStore classes using files More...
 
class  FileHelper
 Helper class used to put data values into a file. More...
 
class  FilsDiscHeader
 Implement the FILS (Fast Initial Link Setup) action frame. More...
 
class  FixedRoomPositionAllocator
 Generate a random position uniformly distributed in the volume of a chosen room inside a chosen building. More...
 
class  FixedRssLossModel
 Return a constant received power level independent of the transmit power. More...
 
class  FlameStack
 Helper class used to install FLAME mesh stack (actually single protocol in this stack) More...
 
class  FlowClassifier
 Provides a method to translate raw packet data into abstract flow identifier and packet identifier parameters. More...
 
class  FlowIdTag
 
class  FlowMonitor
 An object that monitors and reports back packet flows observed during a simulation. More...
 
class  FlowMonitorHelper
 Helper to enable IP flow monitoring on a set of Nodes. More...
 
class  FlowProbe
 The FlowProbe class is responsible for listening for packet events in a specific point of the simulated space, report those events to the global FlowMonitor, and collect its own flow statistics regarding only the packets that pass through that probe. More...
 
class  FqCobaltFlow
 A flow queue used by the FqCobalt queue disc. More...
 
class  FqCobaltQueueDisc
 A FqCobalt packet queue disc. More...
 
class  FqCoDelFlow
 A flow queue used by the FqCoDel queue disc. More...
 
class  FqCoDelQueueDisc
 A FqCoDel packet queue disc. More...
 
class  FqPieFlow
 A flow queue used by the FqPie queue disc. More...
 
class  FqPieQueueDisc
 A FqPie packet queue disc. More...
 
class  FragmentationSubheader
 This class implements the fragmentation sub-header as described by IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems 6.3.2.2.1 Fragmentation subheader, page 39. More...
 
class  FrameCaptureModel
 the interface for Wifi's frame capture models More...
 
class  FrameExchangeManager
 FrameExchangeManager is a base class handling the basic frame exchange sequences for non-QoS stations. More...
 
struct  FrequencyChannelInfo
 A structure containing the information about a frequency channel. More...
 
struct  FrequencyRange
 Struct defining a frequency range between minFrequency and maxFrequency. More...
 
struct  FrHardDownlinkDefaultConfiguration
 FrHardDownlinkDefaultConfiguration structure. More...
 
struct  FrHardUplinkDefaultConfiguration
 FrHardUplinkDefaultConfiguration structure. More...
 
class  FriisPropagationLossModel
 a Friis propagation loss model More...
 
class  FriisSpectrumPropagationLossModel
 Friis spectrum propagation loss model. More...
 
struct  FrSoftDownlinkDefaultConfiguration
 FrSoftDownlinkDefaultConfiguration structure. More...
 
struct  FrSoftUplinkDefaultConfiguration
 soft uplink default configuration More...
 
struct  FrStrictDownlinkDefaultConfiguration
 FrStrictDownlinkDefaultConfiguration structure. More...
 
struct  FrStrictUplinkDefaultConfiguration
 FrStrictUplinkDefaultConfiguration structure. More...
 
class  GammaRandomVariable
 The gamma distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  GaussMarkovMobilityModel
 Gauss-Markov mobility model. More...
 
struct  GbrQosInformation
 3GPP TS 36.413 9.2.1.18 GBR QoS Information More...
 
class  GenericBatteryModelHelper
 Creates and assign an assortment of BatteryModels to Nodes. More...
 
class  GenericMacHeader
 This class implements the Generic mac Header as described by IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems 6.3.2.1.1 Generic MAC header, page 36. More...
 
class  GeocentricConstantPositionMobilityModel
 Mobility model using geocentric euclidean coordinates, as defined in 38.811 chapter 6.3. More...
 
class  GeographicPositions
 Consists of methods dealing with Earth geographic coordinates and locations. More...
 
class  GlobalRouteManager
 A global global router. More...
 
class  GlobalRouteManagerImpl
 A global router implementation. More...
 
class  GlobalRouteManagerLSDB
 The Link State DataBase (LSDB) of the Global Route Manager. More...
 
class  GlobalRouter
 An interface aggregated to a node to provide global routing info. More...
 
class  GlobalRoutingLinkRecord
 A single link record for a link state advertisement. More...
 
class  GlobalRoutingLSA
 a Link State Advertisement (LSA) for a router, used in global routing. More...
 
class  GlobalValue
 Hold a so-called 'global value'. More...
 
class  Gnuplot
 a simple class to generate gnuplot-ready plotting commands from a set of datasets. More...
 
class  Gnuplot2dDataset
 Class to represent a 2D points plot. More...
 
class  Gnuplot2dFunction
 Class to represent a 2D function expression plot. More...
 
class  Gnuplot3dDataset
 Class to represent a 3D points plot. More...
 
class  Gnuplot3dFunction
 Class to represent a 3D function expression plot. More...
 
class  GnuplotAggregator
 This aggregator produces output used to make gnuplot plots. More...
 
class  GnuplotCollection
 a simple class to group together multiple gnuplots into one file, e.g. More...
 
class  GnuplotDataset
 Abstract class to store a plot line to be used by ns3::Gnuplot. More...
 
class  GnuplotHelper
 Helper class used to make gnuplot plots. More...
 
class  GrantedTimeWindowMpiInterface
 Interface between ns-3 and MPI. More...
 
class  GrantManagementSubheader
 This class implements the grant management sub-header as described by IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems 6.3.2.2.2 Grant Management subheader, page 40. More...
 
class  GridBuildingAllocator
 Allocate buildings on a rectangular 2d grid. More...
 
class  GridPositionAllocator
 Allocate positions on a rectangular 2d grid. More...
 
struct  GroupInfo
 A struct to contain information of a group. More...
 
class  GroupMobilityHelper
 Helper class used to assign positions and mobility models to nodes for a group mobility configuration. More...
 
class  GtkConfigStore
 A class that provides a GTK-based front end to ns3::ConfigStore. More...
 
class  GtpcCreateSessionRequestMessage
 GTP-C Create Session Request Message. More...
 
class  GtpcCreateSessionResponseMessage
 GTP-C Create Session Response Message. More...
 
class  GtpcDeleteBearerCommandMessage
 GTP-C Delete Bearer Command Message. More...
 
class  GtpcDeleteBearerRequestMessage
 GTP-C Delete Bearer Request Message. More...
 
class  GtpcDeleteBearerResponseMessage
 GTP-C Delete Bearer Response Message. More...
 
class  GtpcHeader
 Header of the GTPv2-C protocol. More...
 
class  GtpcIes
 GTP-C Information Elements. More...
 
class  GtpcModifyBearerRequestMessage
 GTP-C Modify Bearer Request Message. More...
 
class  GtpcModifyBearerResponseMessage
 GTP-C Modify Bearer Response Message. More...
 
class  GtpuHeader
 Implementation of the GPRS Tunnelling Protocol header according to GTPv1-U Release 10 as per 3Gpp TS 29.281 document. More...
 
class  HalfDuplexIdealPhy
 This PHY layer implementation realizes an ideal OFDM PHY which transmits half-duplex (i.e., it can either receive or transmit at a given time). More...
 
struct  HalfDuplexIdealPhySignalParameters
 Signal parameters for HalfDuplexIdealPhy. More...
 
class  HandoverPreparationInfoHeader
 This class manages the serialization/deserialization of HandoverPreparationInfo IE. More...
 
struct  HarqProcessInfoElement_t
 HarqProcessInfoElement_t structure. More...
 
class  Hasher
 Generic Hash function interface. More...
 
class  He6GhzBandCapabilities
 The HE 6 GHz Band Capabilities (IEEE 802.11ax-2021 9.4.2.263) More...
 
class  Header
 Protocol header serialization and deserialization. More...
 
class  HeaderSerializationTestCase
 Subclass of TestCase class adding the ability to test the serialization and deserialization of a Header object. More...
 
class  HeapScheduler
 a binary heap event scheduler More...
 
class  HeCapabilities
 The IEEE 802.11ax HE Capabilities. More...
 
class  HeConfiguration
 HE configuration. More...
 
class  HeFrameExchangeManager
 HeFrameExchangeManager handles the frame exchange sequences for HE stations. More...
 
struct  HeMuUserInfo
 HE MU specific user transmission parameters. More...
 
class  HeOperation
 The HE Operation Information Element. More...
 
class  HePhy
 PHY entity for HE (11ax) More...
 
class  HePpdu
 HE PPDU (11ax) More...
 
class  HeRu
 This class stores the subcarrier groups of all the available HE RUs. More...
 
struct  HeSigAParameters
 Parameters for received HE-SIG-A for OBSS_PD based SR. More...
 
class  HexGridPositionAllocator
 Position allocator for hexagonal tiling. More...
 
class  HierarchicalMobilityModel
 Hierarchical mobility model. More...
 
struct  HigherLayerSelected_s
 See section 4.3.27 higherLayerSelected. More...
 
class  Histogram
 Class used to store data and make an histogram of the data frequency. More...
 
class  HtCapabilities
 The HT Capabilities Information Element. More...
 
class  HtConfiguration
 HT configuration. More...
 
class  HtFrameExchangeManager
 HtFrameExchangeManager handles the frame exchange sequences for HT stations. More...
 
class  HtOperation
 The HT Operation Information Element. More...
 
class  HtPhy
 PHY entity for HT (11n) More...
 
class  HtPpdu
 HT PPDU (11n) More...
 
class  HybridBuildingsPropagationLossModel
 The HybridBuildingsPropagationModel is a compound of different models able to evaluate the pathloss from 200 to 2600 MHz, in different environments and with buildings (i.e., indoor and outdoor communications). More...
 
class  Icmpv4DestinationUnreachable
 ICMP Destination Unreachable header. More...
 
class  Icmpv4Echo
 ICMP Echo header. More...
 
class  Icmpv4Header
 Base class for all the ICMP packet headers. More...
 
class  Icmpv4L4Protocol
 This is the implementation of the ICMP protocol as described in RFC 792 . More...
 
class  Icmpv4TimeExceeded
 ICMP Time Exceeded header. More...
 
class  Icmpv6DestinationUnreachable
 ICMPv6 Error Destination Unreachable header. More...
 
class  Icmpv6Echo
 ICMPv6 Echo message. More...
 
class  Icmpv6Header
 ICMPv6 header. More...
 
class  Icmpv6L4Protocol
 An implementation of the ICMPv6 protocol. More...
 
class  Icmpv6NA
 ICMPv6 Neighbor Advertisement header. More...
 
class  Icmpv6NS
 ICMPv6 Neighbor Solicitation header. More...
 
class  Icmpv6OptionHeader
 ICMPv6 option header. More...
 
class  Icmpv6OptionLinkLayerAddress
 ICMPv6 link-layer address option. More...
 
class  Icmpv6OptionMtu
 ICMPv6 MTU option. More...
 
class  Icmpv6OptionPrefixInformation
 ICMPv6 Option Prefix Information. More...
 
class  Icmpv6OptionRedirected
 ICMPv6 redirected option. More...
 
class  Icmpv6ParameterError
 ICMPv6 Error Parameter Error header. More...
 
class  Icmpv6RA
 ICMPv6 Router Advertisement header. More...
 
class  Icmpv6Redirection
 ICMPv6 Redirection header. More...
 
class  Icmpv6RS
 ICMPv6 Router Solicitation header. More...
 
class  Icmpv6TimeExceeded
 ICMPv6 Error Time Exceeded header. More...
 
class  Icmpv6TooBig
 ICMPv6 Error Too Big header. More...
 
class  IdealHandoverCommandHeader
 This header encodes the map key discussed above. More...
 
class  IdealHandoverPreparationInfoHeader
 This header encodes the map key discussed above. More...
 
class  IdealWifiManager
 Ideal rate control algorithm. More...
 
struct  IdealWifiRemoteStation
 hold per-remote-station state for Ideal Wifi manager. More...
 
class  IidManager
 TypeId information manager. More...
 
struct  ImsiLcidPair_t
 ImsiLcidPair structure. More...
 
struct  Indent
 Helper to indent output a specified number of steps. More...
 
class  Inet6SocketAddress
 An Inet6 address class. More...
 
class  InetSocketAddress
 an Inet address class More...
 
class  InetTopologyReader
 Topology file reader (Inet-format type). More...
 
class  int64x64_t
 High precision numerical type, implementing Q64.64 fixed precision. More...
 
class  IntegerValue
 Hold a signed integer type. More...
 
class  InterferenceHelper
 handles interference calculations More...
 
class  InternetStackHelper
 aggregate IP/TCP/UDP functionality to existing Nodes. More...
 
class  IpcsClassifier
 IPCS classifier. More...
 
class  IpcsClassifierRecord
 IpcsClassifierRecord class. More...
 
class  IpL4Protocol
 L4 Protocol abstract base class. More...
 
class  Ipv4
 Access to the IPv4 forwarding table, interfaces, and configuration. More...
 
class  Ipv4Address
 Ipv4 addresses are stored in host order in this class. More...
 
class  Ipv4AddressChecker
 
class  Ipv4AddressGenerator
 This generator assigns addresses sequentially from a provided network address; used in topology code. More...
 
class  Ipv4AddressGeneratorImpl
 Implementation class of Ipv4AddressGenerator This generator assigns addresses sequentially from a provided network address; used in topology code. More...
 
class  Ipv4AddressHash
 Class providing an hash for IPv4 addresses. More...
 
class  Ipv4AddressHelper
 A helper class to make life easier while doing simple IPv4 address assignment in scripts. More...
 
class  Ipv4AddressTlvValue
 Ipv4AddressTlvValue class. More...
 
class  Ipv4AddressValue
 
class  Ipv4ARouting
 IPv4 dummy routing class (A) More...
 
class  Ipv4BRouting
 IPv4 dummy routing class (B) More...
 
class  Ipv4ClickRouting
 Class to allow a node to use Click for external routing. More...
 
class  Ipv4EndPoint
 A representation of an internet endpoint/connection. More...
 
class  Ipv4EndPointDemux
 Demultiplexes packets to various transport layer endpoints. More...
 
class  Ipv4FlowClassifier
 Classifies packets by looking at their IP and TCP/UDP headers. More...
 
class  Ipv4FlowProbe
 Class that monitors flows at the IPv4 layer of a Node. More...
 
class  Ipv4FlowProbeTag
 Tag used to allow a fast identification of the packet. More...
 
class  Ipv4GlobalRouting
 Global routing protocol for IPv4 stacks. More...
 
class  Ipv4GlobalRoutingHelper
 Helper class that adds ns3::Ipv4GlobalRouting objects. More...
 
class  Ipv4Header
 Packet header for IPv4. More...
 
class  Ipv4Interface
 The IPv4 representation of a network interface. More...
 
class  Ipv4InterfaceAddress
 a class to store IPv4 address information on an interface More...
 
class  Ipv4InterfaceContainer
 holds a vector of std::pair of Ptr<Ipv4> and interface index. More...
 
class  Ipv4L3ClickProtocol
 Implement the Ipv4 layer specifically for Click nodes to allow a clean integration of Click. More...
 
class  Ipv4L3Protocol
 Implement the IPv4 layer. More...
 
class  Ipv4ListRouting
 IPv4 list routing. More...
 
class  Ipv4ListRoutingHelper
 Helper class that adds ns3::Ipv4ListRouting objects. More...
 
class  Ipv4ListRoutingNegativeTestCase
 IPv4 ListRouting negative test. More...
 
class  Ipv4ListRoutingPositiveTestCase
 IPv4 ListRouting positive test. More...
 
class  Ipv4ListRoutingTestSuite
 IPv4 ListRouting TestSuite. More...
 
class  Ipv4Mask
 a class to represent an Ipv4 address mask More...
 
class  Ipv4MaskChecker
 
class  Ipv4MaskValue
 
class  Ipv4MulticastRoute
 Ipv4 multicast route cache entry (similar to Linux struct mfc_cache) More...
 
class  Ipv4MulticastRoutingTableEntry
 A record of an IPv4 multicast route for Ipv4GlobalRouting and Ipv4StaticRouting. More...
 
class  Ipv4PacketFilter
 Ipv4PacketFilter is the abstract base class for filters defined for IPv4 packets. More...
 
class  Ipv4PacketInfoTag
 This class implements Linux struct pktinfo in order to deliver ancillary information to the socket interface. More...
 
class  Ipv4PacketProbe
 This class is designed to probe an underlying ns3 TraceSource exporting a packet, an IPv4 object, and an interface. More...
 
class  Ipv4QueueDiscItem
 Ipv4QueueDiscItem is a subclass of QueueDiscItem which stores IPv4 packets. More...
 
class  Ipv4RawSocketFactory
 API to create RAW socket instances. More...
 
class  Ipv4RawSocketFactoryImpl
 Implementation of IPv4 raw socket factory. More...
 
class  Ipv4RawSocketImpl
 IPv4 raw socket. More...
 
class  Ipv4Route
 IPv4 route cache entry (similar to Linux struct rtable) More...
 
class  Ipv4RoutingHelper
 a factory to create ns3::Ipv4RoutingProtocol objects More...
 
class  Ipv4RoutingProtocol
 Abstract base class for IPv4 routing protocols. More...
 
class  Ipv4RoutingTableEntry
 A record of an IPv4 routing table entry for Ipv4GlobalRouting and Ipv4StaticRouting. More...
 
class  Ipv4StaticRouting
 Static routing protocol for IP version 4 stacks. More...
 
class  Ipv4StaticRoutingHelper
 Helper class that adds ns3::Ipv4StaticRouting objects. More...
 
class  Ipv6
 Access to the IPv6 forwarding table, interfaces, and configuration. More...
 
class  Ipv6Address
 Describes an IPv6 address. More...
 
class  Ipv6AddressChecker
 
class  Ipv6AddressGenerator
 This generator assigns addresses sequentially from a provided network address; used in topology code. More...
 
class  Ipv6AddressGeneratorImpl
 Implementation class of Ipv6AddressGenerator This generator assigns addresses sequentially from a provided network address; used in topology code. More...
 
class  Ipv6AddressHash
 Hash function class for IPv6 addresses. More...
 
class  Ipv6AddressHelper
 Helper class to auto-assign global IPv6 unicast addresses. More...
 
class  Ipv6AddressValue
 
class  Ipv6ARouting
 IPv6 dummy routing class (A) More...
 
class  Ipv6AutoconfiguredPrefix
 Router prefix information. More...
 
class  Ipv6BRouting
 IPv6 dummy routing class (B) More...
 
class  Ipv6EndPoint
 A representation of an IPv6 endpoint/connection. More...
 
class  Ipv6EndPointDemux
 Demultiplexer for end points. More...
 
class  Ipv6Extension
 IPv6 Extension base If you want to implement a new IPv6 extension, all you have to do is implement a subclass of this class and add it to an Ipv6ExtensionDemux. More...
 
class  Ipv6ExtensionAH
 IPv6 Extension AH (Authentication Header) More...
 
class  Ipv6ExtensionAHHeader
 Header of IPv6 Extension AH. More...
 
class  Ipv6ExtensionDemux
 Demultiplexes IPv6 extensions. More...
 
class  Ipv6ExtensionDestination
 IPv6 Extension Destination. More...
 
class  Ipv6ExtensionDestinationHeader
 Header of IPv6 Extension Destination. More...
 
class  Ipv6ExtensionESP
 IPv6 Extension ESP (Encapsulating Security Payload) More...
 
class  Ipv6ExtensionESPHeader
 Header of IPv6 Extension ESP. More...
 
class  Ipv6ExtensionFragment
 IPv6 Extension Fragment. More...
 
class  Ipv6ExtensionFragmentHeader
 Header of IPv6 Extension Fragment. More...
 
class  Ipv6ExtensionHeader
 Header for IPv6 Extension. More...
 
class  Ipv6ExtensionHopByHop
 IPv6 Extension "Hop By Hop". More...
 
class  Ipv6ExtensionHopByHopHeader
 Header of IPv6 Extension "Hop by Hop". More...
 
class  Ipv6ExtensionLooseRouting
 IPv6 Extension Loose Routing. More...
 
class  Ipv6ExtensionLooseRoutingHeader
 Header of IPv6 Extension Routing : Type 0 (Loose Routing) More...
 
class  Ipv6ExtensionRouting
 IPv6 Extension Routing. More...
 
class  Ipv6ExtensionRoutingDemux
 IPv6 Extension Routing Demux. More...
 
class  Ipv6ExtensionRoutingHeader
 Header of IPv6 Extension Routing. More...
 
class  Ipv6FlowClassifier
 Classifies packets by looking at their IP and TCP/UDP headers. More...
 
class  Ipv6FlowProbe
 Class that monitors flows at the IPv6 layer of a Node. More...
 
class  Ipv6FlowProbeTag
 Tag used to allow a fast identification of the packet. More...
 
class  Ipv6Header
 Packet header for IPv6. More...
 
class  Ipv6Interface
 The IPv6 representation of a network interface. More...
 
class  Ipv6InterfaceAddress
 IPv6 address associated with an interface. More...
 
class  Ipv6InterfaceContainer
 Keep track of a set of IPv6 interfaces. More...
 
class  Ipv6L3Protocol
 IPv6 layer implementation. More...
 
class  Ipv6ListRouting
 Hold list of Ipv6RoutingProtocol objects. More...
 
class  Ipv6ListRoutingHelper
 Helper class that adds ns3::Ipv6ListRouting objects. More...
 
class  Ipv6ListRoutingNegativeTestCase
 IPv6 ListRouting negative test. More...
 
class  Ipv6ListRoutingPositiveTestCase
 IPv6 ListRouting positive test. More...
 
class  Ipv6ListRoutingTestSuite
 IPv6 ListRouting TestSuite. More...
 
class  Ipv6MulticastRoute
 IPv6 multicast route entry. More...
 
class  Ipv6MulticastRoutingTableEntry
 A record of an IPv6 multicast route. More...
 
class  Ipv6Option
 IPv6 Option base. More...
 
class  Ipv6OptionDemux
 IPv6 Option Demux. More...
 
class  Ipv6OptionHeader
 Header for IPv6 Option. More...
 
class  Ipv6OptionJumbogram
 IPv6 Option Jumbogram. More...
 
class  Ipv6OptionJumbogramHeader
 Header of IPv6 Option Jumbogram. More...
 
class  Ipv6OptionPad1
 IPv6 Option Pad1. More...
 
class  Ipv6OptionPad1Header
 Header of IPv6 Option Pad1. More...
 
class  Ipv6OptionPadn
 IPv6 Option Padn. More...
 
class  Ipv6OptionPadnHeader
 Header of IPv6 Option Padn. More...
 
class  Ipv6OptionRouterAlert
 IPv6 Option Router Alert. More...
 
class  Ipv6OptionRouterAlertHeader
 Header of IPv6 Option Router Alert. More...
 
class  Ipv6PacketFilter
 Ipv6PacketFilter is the abstract base class for filters defined for IPv6 packets. More...
 
class  Ipv6PacketInfoTag
 This class implements a tag that carries socket ancillary data to the socket interface. More...
 
class  Ipv6PacketProbe
 This class is designed to probe an underlying ns3 TraceSource exporting a packet, an IPv6 object, and an interface. More...
 
class  Ipv6PmtuCache
 This class implements the Path MTU cache, as defined by RFC 1981 . More...
 
class  Ipv6Prefix
 Describes an IPv6 prefix. More...
 
class  Ipv6PrefixChecker
 
class  Ipv6PrefixValue
 
class  Ipv6QueueDiscItem
 Ipv6QueueDiscItem is a subclass of QueueDiscItem which stores IPv6 packets. More...
 
class  Ipv6RawSocketFactory
 API to create IPv6 RAW socket instances. More...
 
class  Ipv6RawSocketFactoryImpl
 Implementation of IPv6 raw socket factory. More...
 
class  Ipv6RawSocketImpl
 IPv6 raw socket. More...
 
class  Ipv6Route
 IPv6 route cache entry. More...
 
class  Ipv6RoutingHelper
 A factory to create ns3::Ipv6RoutingProtocol objects. More...
 
class  Ipv6RoutingProtocol
 Abstract base class for IPv6 routing protocols. More...
 
class  Ipv6RoutingTableEntry
 A record of an IPv6 route. More...
 
class  Ipv6StaticRouting
 Static routing protocol for IP version 6 stacks. More...
 
class  Ipv6StaticRoutingHelper
 Helper class that adds ns3::Ipv6StaticRouting objects. More...
 
class  IsotropicAntennaModel
 Isotropic antenna model. More...
 
class  ItuR1238PropagationLossModel
 This class implements the ITU-R 1238 propagation loss model. More...
 
class  ItuR1411LosPropagationLossModel
 the ITU-R 1411 LOS propagation model More...
 
class  ItuR1411NlosOverRooftopPropagationLossModel
 the ITU-R 1411 NLOS over rooftop propagation model More...
 
class  JakesProcess
 Implementation for a single path Stationary Jakes propagation loss model. More...
 
class  JakesPropagationLossModel
 a Jakes narrowband propagation model. More...
 
class  Kun2600MhzPropagationLossModel
 Empirical propagation model for the 2.6 GHz frequency. More...
 
class  LaplacianRandomVariable
 The laplacian distribution Random Number Generator (RNG). More...
 
class  LargestExtremeValueRandomVariable
 The Largest Extreme Value distribution Random Number Generator (RNG). More...
 
class  LbtsMessage
 Structure used for all-reduce LBTS computation. More...
 
class  LenaDeactivateBearerTestCase
 Test case that for testing the deactivation of the bearer functionality. More...
 
class  LenaTestBearerDeactivateSuite
 The test suite class for the LenaDeactivateBearerTestCase. More...
 
class  Length
 Represents a length in meters. More...
 
class  LengthChecker
 
class  LengthValue
 
class  LiIonEnergySourceHelper
 Creates a LiIonEnergySource object. More...
 
class  LinearWifiTxCurrentModel
 a linear model of the Wifi transmit current More...
 
class  ListErrorModel
 Provide a list of Packet uids to corrupt. More...
 
class  ListPositionAllocator
 Allocate positions from a deterministic list specified by the user. More...
 
class  ListScheduler
 a std::list event scheduler More...
 
class  LlcSnapHeader
 Header for the LLC/SNAP encapsulation. More...
 
class  LogComponent
 A single log component configuration. More...
 
class  LogDistancePropagationLossModel
 a log distance propagation model. More...
 
struct  LogicalChannelConfigListElement_s
 See section 4.3.4 logicalChannelConfigListElement. More...
 
class  LogNormalRandomVariable
 The log-normal distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  LollipopCounter
 Template class implementing a Lollipop counter as defined in RFC 8505 , RFC 6550 , and [Perlman83]. More...
 
class  LoopbackNetDevice
 Virtual network interface that loops back any data sent to it to be immediately received on the same interface. More...
 
class  LrWpanHelper
 helps to manage and create IEEE 802.15.4 NetDevice objects More...
 
class  LteAmc
 Implements the Adaptive Modulation And Coding Scheme. More...
 
class  LteAnr
 Automatic Neighbour Relation function. More...
 
class  LteAnrSapProvider
 Service Access Point (SAP) offered by the ANR instance to the eNodeB RRC instance. More...
 
class  LteAnrSapUser
 Service Access Point (SAP) offered by the eNodeB RRC instance to the ANR instance. More...
 
class  LteAsSapProvider
 This class implements the Access Stratum (AS) Service Access Point (SAP), i.e., the interface between the EpcUeNas and the LteUeRrc. More...
 
class  LteAsSapUser
 This class implements the Access Stratum (AS) Service Access Point (SAP), i.e., the interface between the EpcUeNas and the LteUeRrc In particular, this class implements the User part of the SAP, i.e., the methods exported by the EpcUeNas and called by the LteUeRrc. More...
 
class  LteCcmMacSapProvider
 Service Access Point (SAP) offered by the component carrier manager (CCM) by MAC to CCM. More...
 
class  LteCcmMacSapUser
 Service Access Point (SAP) offered by MAC to the component carrier manager (CCM). More...
 
class  LteCcmRrcSapProvider
 Service Access Point (SAP) offered by the Component Carrier Manager (CCM) instance to the eNodeB RRC instance. More...
 
class  LteCcmRrcSapUser
 Service Access Point (SAP) offered by the eNodeB RRC instance to the component carrier manager (CCM) instance. More...
 
class  LteChunkProcessor
 This abstract class is used to process the time-vs-frequency SINR/interference/power chunk of a received LTE signal which was calculated by the LteInterference object. More...
 
class  LteControlMessage
 The LteControlMessage provides a basic implementations for control messages (such as PDCCH allocation map, CQI feedbacks) that are exchanged among eNodeB and UEs. More...
 
class  LteDataRadioBearerInfo
 store information on active data radio bearer instance More...
 
class  LteEnbCmacSapProvider
 Service Access Point (SAP) offered by the eNB MAC to the eNB RRC See Femto Forum MAC Scheduler Interface Specification v 1.11, Figure 1. More...
 
class  LteEnbCmacSapUser
 Service Access Point (SAP) offered by the MAC to the RRC See Femto Forum MAC Scheduler Interface Specification v 1.11, Figure 1. More...
 
class  LteEnbComponentCarrierManager
 The class implements Component Carrier Manager (CCM) that operates using the Component Carrier Manager SAP interfaces. More...
 
class  LteEnbCphySapProvider
 Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes. More...
 
class  LteEnbCphySapUser
 Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes. More...
 
class  LteEnbMac
 This class implements the MAC layer of the eNodeB device. More...
 
class  LteEnbNetDevice
 The eNodeB device implementation. More...
 
class  LteEnbPhy
 LteEnbPhy models the physical layer for the eNodeB. More...
 
class  LteEnbPhySapProvider
 Service Access Point (SAP) offered by the eNB-PHY to the eNB-MAC. More...
 
class  LteEnbPhySapUser
 Service Access Point (SAP) offered by the eNB-PHY to the eNB-MAC. More...
 
class  LteEnbRrc
 The LTE Radio Resource Control entity at the eNB. More...
 
class  LteEnbRrcProtocolIdeal
 Models the transmission of RRC messages from the UE to the eNB in an ideal fashion, without errors and without consuming any radio resources. More...
 
class  LteEnbRrcProtocolReal
 Models the transmission of RRC messages from the UE to the eNB in a real fashion, by creating real RRC PDUs and transmitting them over Signaling Radio Bearers using radio resources allocated by the LTE MAC scheduler. More...
 
class  LteEnbRrcSapProvider
 Part of the RRC protocol. More...
 
class  LteEnbRrcSapUser
 Part of the RRC protocol. More...
 
class  LteFfConverter
 LteFfConverter class. More...
 
class  LteFfrAlgorithm
 The abstract base class of a Frequency Reuse algorithm. More...
 
class  LteFfrDistributedAlgorithm
 Distributed Fractional Frequency Reuse algorithm implementation. More...
 
class  LteFfrEnhancedAlgorithm
 Enhanced Fractional Frequency Reuse algorithm implementation. More...
 
class  LteFfrRrcSapProvider
 Service Access Point (SAP) offered by the Frequency Reuse algorithm instance to the eNodeB RRC instance. More...
 
class  LteFfrRrcSapUser
 Service Access Point (SAP) offered by the eNodeB RRC instance to the Frequency Reuse algorithm instance. More...
 
class  LteFfrSapProvider
 Service Access Point (SAP) offered by the Frequency Reuse algorithm instance to the MAC Scheduler instance. More...
 
class  LteFfrSapUser
 Service Access Point (SAP) offered by the eNodeB RRC instance to the Frequency Reuse algorithm instance. More...
 
class  LteFfrSimple
 Simple Frequency Reuse algorithm implementation which uses only 1 sub-band. More...
 
class  LteFfrSoftAlgorithm
 Soft Fractional Frequency Reuse algorithm implementation. More...
 
struct  LteFlowId_t
 LteFlowId structure. More...
 
class  LteFrHardAlgorithm
 Hard Frequency Reuse algorithm implementation which uses only 1 sub-band. More...
 
class  LteFrNoOpAlgorithm
 FR algorithm implementation which simply does nothing. More...
 
class  LteFrSoftAlgorithm
 Soft Frequency Reuse algorithm implementation. More...
 
class  LteFrStrictAlgorithm
 Strict Frequency Reuse algorithm implementation. More...
 
class  LteGlobalPathlossDatabase
 Store the last pathloss value for each TX-RX pair. More...
 
class  LteHandoverAlgorithm
 The abstract base class of a handover algorithm that operates using the Handover Management SAP interface. More...
 
class  LteHandoverManagementSapProvider
 Service Access Point (SAP) offered by the handover algorithm instance to the eNodeB RRC instance. More...
 
class  LteHandoverManagementSapUser
 Service Access Point (SAP) offered by the eNodeB RRC instance to the handover algorithm instance. More...
 
class  LteHarqPhy
 The LteHarqPhy class implements the HARQ functionalities related to PHY layer (i.e., decodification buffers for incremental redundancy management) More...
 
class  LteHelper
 Creation and configuration of LTE entities. More...
 
class  LteHexGridEnbTopologyHelper
 This helper class allows to easily create a topology with eNBs grouped in three-sector sites laid out on an hexagonal grid. More...
 
class  LteInterference
 This class implements a gaussian interference model, i.e., all incoming signals are added to the total interference. More...
 
class  LteMacSapProvider
 Service Access Point (SAP) offered by the MAC to the RLC See Femto Forum MAC Scheduler Interface Specification v 1.11, Figure 1. More...
 
class  LteMacSapUser
 Service Access Point (SAP) offered by the MAC to the RLC See Femto Forum MAC Scheduler Interface Specification v 1.11, Figure 1. More...
 
class  LteMiErrorModel
 This class provides the BLER estimation based on mutual information metrics. More...
 
class  LteNetDevice
 LteNetDevice provides basic implementation for all LTE network devices. More...
 
class  LtePdcp
 LTE PDCP entity, see 3GPP TS 36.323. More...
 
class  LtePdcpHeader
 The packet header for the Packet Data Convergence Protocol (PDCP) packets. More...
 
class  LtePdcpSapProvider
 Service Access Point (SAP) offered by the PDCP entity to the RRC entity See 3GPP 36.323 Packet Data Convergence Protocol (PDCP) specification. More...
 
class  LtePdcpSapUser
 Service Access Point (SAP) offered by the PDCP entity to the RRC entity See 3GPP 36.323 Packet Data Convergence Protocol (PDCP) specification. More...
 
class  LtePdcpSpecificLtePdcpSapProvider
 LtePdcpSpecificLtePdcpSapProvider class. More...
 
class  LtePdcpSpecificLtePdcpSapUser
 LtePdcpSpecificLtePdcpSapUser class. More...
 
class  LtePdcpSpecificLteRlcSapUser
 LtePdcpSpecificLteRlcSapUser class. More...
 
class  LtePhy
 The LtePhy models the physical layer of LTE. More...
 
class  LtePhyTag
 Tag used to define PHY parameters. More...
 
class  LteRadioBearerInfo
 store information on active radio bearer instance More...
 
class  LteRadioBearerTag
 Tag used to define the RNTI and LC id for each MAC packet transmitted. More...
 
class  LteRlc
 This abstract base class defines the API to interact with the Radio Link Control (LTE_RLC) in LTE, see 3GPP TS 36.322. More...
 
class  LteRlcAm
 LTE RLC Acknowledged Mode (AM), see 3GPP TS 36.322. More...
 
class  LteRlcAmHeader
 The packet header for the AM Radio Link Control (RLC) protocol packets. More...
 
class  LteRlcHeader
 The packet header for the Radio Link Control (RLC) protocol packets. More...
 
class  LteRlcHeaderTestSuite
 Lte Rlc Header Test Suite. More...
 
class  LteRlcSapProvider
 Service Access Point (SAP) offered by the UM-RLC and AM-RLC entities to the PDCP entity See 3GPP 36.322 Radio Link Control (RLC) protocol specification. More...
 
class  LteRlcSapUser
 Service Access Point (SAP) offered by the UM-RLC and AM-RLC entities to the PDCP entity See 3GPP 36.322 Radio Link Control (RLC) protocol specification. More...
 
class  LteRlcSduStatusTag
 This class implements a tag that carries the status of a RLC SDU for the fragmentation process Status of RLC SDU. More...
 
class  LteRlcSm
 LTE_RLC Saturation Mode (SM): simulation-specific mode used for experiments that do not need to consider the layers above the LTE_RLC. More...
 
class  LteRlcSpecificLteMacSapUser
 LteRlcSpecificLteMacSapUser class. More...
 
class  LteRlcSpecificLteRlcSapProvider
 LteRlcSpecificLteRlcSapProvider. More...
 
class  LteRlcSpecificLteRlcSapUser
 LteRlcSpecificLteRlcSapUser class. More...
 
class  LteRlcTm
 LTE RLC Transparent Mode (TM), see 3GPP TS 36.322. More...
 
class  LteRlcUm
 LTE RLC Unacknowledged Mode (UM), see 3GPP TS 36.322. More...
 
class  LteRrcSap
 Class holding definition common to all UE/eNodeB SAP Users/Providers. More...
 
class  LteSignalingRadioBearerInfo
 store information on active signaling radio bearer instance More...
 
class  LteSimpleHelper
 A simplified version of LteHelper, that is used for creation and configuration of LTE entities for testing purposes when just a limited LteHelper functionality is wanted. More...
 
class  LteSimpleNetDevice
 The LteSimpleNetDevice class implements the LTE simple net device. More...
 
class  LteSimpleSpectrumPhy
 The LteSimpleSpectrumPhy models the physical layer of LTE This class is used to test Frequency Reuse Algorithms, it allow to get SpectrumValue from channel and pass it to test script by trace mechanism. More...
 
struct  LteSpectrumModelId
 LteSpectrumModelId structure. More...
 
class  LteSpectrumPhy
 The LteSpectrumPhy models the physical layer of LTE. More...
 
struct  LteSpectrumSignalParameters
 Signal parameters for Lte. More...
 
struct  LteSpectrumSignalParametersDataFrame
 Signal parameters for Lte Data Frame (PDSCH), and eventually after some control messages through other control channel embedded in PDSCH (i.e. More...
 
struct  LteSpectrumSignalParametersDlCtrlFrame
 Signal parameters for Lte DL Ctrl Frame (RS, PCFICH and PDCCH) More...
 
struct  LteSpectrumSignalParametersUlSrsFrame
 Signal parameters for Lte SRS Frame. More...
 
class  LteSpectrumValueCatcher
 A sink to be plugged to the callback of LteChunkProcessor allowing to save and later retrieve the latest reported value. More...
 
class  LteSpectrumValueHelper
 This class defines all functions to create spectrum model for lte. More...
 
class  LteStatsCalculator
 Base class for ***StatsCalculator classes. More...
 
class  LteTestMac
 This class implements a testing loopback MAC layer. More...
 
class  LteTestPdcp
 This class implements a testing PDCP entity. More...
 
class  LteTestRrc
 This class implements a testing RRC entity. More...
 
class  LteTestUePhy
 Defines a simplified LtePhy class that is used for testing purposes of downlink and uplink SINR generation. More...
 
class  LteUeCcmRrcSapProvider
 Service Access Point (SAP) offered by the UE component carrier manager to the UE RRC. More...
 
class  LteUeCcmRrcSapUser
 Service Access Point (SAP) offered by the UE RRC to the UE CCM. More...
 
class  LteUeCmacSapProvider
 Service Access Point (SAP) offered by the UE MAC to the UE RRC. More...
 
class  LteUeCmacSapUser
 Service Access Point (SAP) offered by the UE MAC to the UE RRC. More...
 
class  LteUeComponentCarrierManager
 The abstract base class of a Component Carrier Manager* for UE that operates using the component carrier manager SAP interface. More...
 
struct  LteUeConfig_t
 Parameters for configuring the UE. More...
 
class  LteUeCphySapProvider
 Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes. More...
 
class  LteUeCphySapUser
 Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes. More...
 
class  LteUeMac
 
class  LteUeNetDevice
 The LteUeNetDevice class implements the UE net device. More...
 
class  LteUePhy
 The LteSpectrumPhy models the physical layer of LTE. More...
 
class  LteUePhySapProvider
 Service Access Point (SAP) offered by the UE-PHY to the UE-MAC. More...
 
class  LteUePhySapUser
 Service Access Point (SAP) offered by the PHY to the MAC. More...
 
class  LteUePowerControl
 This class realizes Uplink Power Control functionality. More...
 
class  LteUeRrc
 
class  LteUeRrcProtocolIdeal
 Models the transmission of RRC messages from the UE to the eNB in an ideal fashion, without errors and without consuming any radio resources. More...
 
class  LteUeRrcProtocolReal
 Models the transmission of RRC messages from the UE to the eNB in a real fashion, by creating real RRC PDUs and transmitting them over Signaling Radio Bearers using radio resources allocated by the LTE MAC scheduler. More...
 
class  LteUeRrcSapProvider
 Part of the RRC protocol. More...
 
class  LteUeRrcSapUser
 Part of the RRC protocol. More...
 
class  Mac16Address
 This class can contain 16 bit addresses. More...
 
class  Mac16AddressChecker
 
class  Mac16AddressValue
 
class  Mac48Address
 an EUI-48 address More...
 
class  Mac48AddressChecker
 
class  Mac48AddressValue
 
class  Mac64Address
 an EUI-64 address More...
 
class  Mac64AddressChecker
 
class  Mac64AddressValue
 hold objects of type ns3::Mac64Address More...
 
class  Mac8Address
 A class used for addressing MAC8 MAC's. More...
 
struct  MacCeListElement_s
 See section 4.3.14 macCEListElement. More...
 
struct  MacCeValue_u
 See section 4.3.15 macCEValue. More...
 
class  MacHeaderType
 This class Represents the HT (Header Type) field of generic MAC and bandwidth request headers. More...
 
class  MacRxMiddle
 This class handles duplicate detection and recomposition of fragments. More...
 
class  MacStatsCalculator
 Takes care of storing the information generated at MAC layer. More...
 
class  MacTxMiddle
 Handles sequence numbering of IEEE 802.11 data frames. More...
 
class  ManagementMessageType
 Mac Management messages Section 6.3.2.3 MAC Management messages page 42, Table 14 page 43. More...
 
class  MapScheduler
 a std::map event scheduler More...
 
class  MatrixArray
 MatrixArray class inherits ValArray class and provides additional interfaces to ValArray which enable page-wise linear algebra operations for arrays of matrices. More...
 
class  MatrixBasedChannelModel
 This is an interface for a channel model that can be described by a channel matrix, e.g., the 3GPP Spatial Channel Models, which is generally used in combination with antenna arrays. More...
 
class  MatrixPropagationLossModel
 The propagation loss is fixed for each pair of nodes and doesn't depend on their actual positions. More...
 
struct  MaxFilter
 Compares two values. More...
 
struct  McsGroup
 Data structure to contain the information that defines a group. More...
 
class  MeasurementReportHeader
 This class manages the serialization/deserialization of MeasurementReport IE. More...
 
class  MemberCschedSapProvider
 MemberCschedSapProvider class. More...
 
class  MemberEpcEnbS1SapProvider
 Template for the implementation of the EpcEnbS1SapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberEpcEnbS1SapUser
 Template for the implementation of the EpcEnbS1SapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberEpcS11SapMme
 Template for the implementation of the EpcS11SapMme as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberEpcS11SapSgw
 Template for the implementation of the EpcS11SapSgw as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberEpcS1apSapEnb
 Template for the implementation of the EpcS1apSapEnb as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberEpcS1apSapMme
 Template for the implementation of the EpcS1apSapMme as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteAnrSapProvider
 Template for the implementation of the LteAnrSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteAnrSapUser
 Template for the implementation of the LteAnrSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteAsSapProvider
 Template for the implementation of the LteAsSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteAsSapUser
 Template for the implementation of the LteAsSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteCcmMacSapProvider
 MemberLteCcmMacSapProvider class. More...
 
class  MemberLteCcmMacSapUser
 MemberLteCcmMacSapUser class. More...
 
class  MemberLteCcmRrcSapProvider
 MemberLteCcmRrcSapProvider class. More...
 
class  MemberLteCcmRrcSapUser
 MemberLteCcmRrcSapUser class. More...
 
class  MemberLteEnbCphySapProvider
 Template for the implementation of the LteEnbCphySapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteEnbCphySapUser
 Template for the implementation of the LteEnbCphySapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteEnbRrcSapProvider
 Template for the implementation of the LteEnbRrcSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteEnbRrcSapUser
 Template for the implementation of the LteEnbRrcSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteFfrRrcSapProvider
 Template for the implementation of the LteFfrRrcSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteFfrRrcSapUser
 Template for the implementation of the LteFfrRrcSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteFfrSapProvider
 Template for the implementation of the LteFfrSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteFfrSapUser
 Template for the implementation of the LteFfrSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteHandoverManagementSapProvider
 Template for the implementation of the LteHandoverManagementSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteHandoverManagementSapUser
 Template for the implementation of the LteHandoverManagementSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteUeCcmRrcSapProvider
 MemberLteUeCcmRrcSapProvider class. More...
 
class  MemberLteUeCcmRrcSapUser
 MemberLteUeCcmRrcSapUser class. More...
 
class  MemberLteUeCphySapProvider
 Template for the implementation of the LteUeCphySapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteUeCphySapUser
 Template for the implementation of the LteUeCphySapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteUeRrcSapProvider
 Template for the implementation of the LteUeRrcSapProvider as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberLteUeRrcSapUser
 Template for the implementation of the LteUeRrcSapUser as a member of an owner class of type C to which all methods are forwarded. More...
 
class  MemberSchedSapProvider
 MemberSchedSapProvider class. More...
 
class  MeshHelper
 Helper to create IEEE 802.11s mesh networks. More...
 
class  MeshInformationElementVector
 Information element vector. More...
 
class  MeshL2RoutingProtocol
 Interface for L2 mesh routing protocol and mesh point communication. More...
 
class  MeshPointDevice
 Virtual net device modeling mesh point. More...
 
class  MeshStack
 Prototype for class, which helps to install MAC-layer routing stack to ns3::MeshPointDevice. More...
 
class  MeshWifiBeacon
 Beacon is beacon header + list of arbitrary information elements. More...
 
class  MeshWifiInterfaceMac
 Basic MAC of mesh point Wi-Fi interface. More...
 
class  MeshWifiInterfaceMacPlugin
 Common interface for mesh point interface MAC plugins. More...
 
class  MgtAddBaRequestHeader
 Implement the header for management frames of type Add Block Ack request. More...
 
class  MgtAddBaResponseHeader
 Implement the header for management frames of type Add Block Ack response. More...
 
class  MgtAssocRequestHeader
 Implement the header for management frames of type association request. More...
 
class  MgtAssocResponseHeader
 Implement the header for management frames of type association and reassociation response. More...
 
class  MgtBeaconHeader
 Implement the header for management frames of type beacon. More...
 
class  MgtDelBaHeader
 Implement the header for management frames of type Delete Block Ack. More...
 
class  MgtEmlOmn
 Implement the header for Action frames of type EML Operating Mode Notification. More...
 
class  MgtHeaderInPerStaProfile
 Implement the header for management frames that can be included in a Per-STA Profile subelement of a Multi-Link Element. More...
 
class  MgtHeaderInPerStaProfile< Derived, std::tuple< Elems... > >
 Add methods needed to serialize/deserialize a management header into a Per-STA Profile subelement of a Multi-Link Element. More...
 
class  MgtProbeRequestHeader
 Implement the header for management frames of type probe request. More...
 
class  MgtProbeResponseHeader
 Implement the header for management frames of type probe response. More...
 
class  MgtReassocRequestHeader
 Implement the header for management frames of type reassociation request. More...
 
class  MibLteControlMessage
 Abstract model for broadcasting the Master Information Block (MIB) within the control channel (BCCH). More...
 
class  MicrowaveOvenSpectrumModel5MhzInitializer
 Init a static class containing the MWO #2 model (5Mhz) More...
 
class  MicrowaveOvenSpectrumModel6MhzInitializer
 Init a static class containing the MWO #1 model (6Mhz) More...
 
class  MicrowaveOvenSpectrumValueHelper
 This class provides methods for the creation of SpectrumValue instances that mimic the Power Spectral Density of commercial microwave ovens based on the measurements reported in the following paper: Tanim M. More...
 
struct  MinFilter
 Compares two values. More...
 
class  MinMaxAvgTotalCalculator
 Template class MinMaxAvgTotalCalculator. More...
 
struct  MinstrelHtRateInfo
 A struct to contain all statistics information related to a data rate. More...
 
class  MinstrelHtWifiManager
 Implementation of Minstrel-HT Rate Control Algorithm. More...
 
struct  MinstrelHtWifiRemoteStation
 MinstrelHtWifiRemoteStation structure. More...
 
class  MinstrelWifiManager
 Implementation of Minstrel Rate Control Algorithm. More...
 
struct  MinstrelWifiRemoteStation
 hold per-remote-station state for Minstrel Wifi manager. More...
 
class  MobilityBuildingInfo
 mobility buildings information (to be used by mobility models) More...
 
class  MobilityHelper
 Helper class used to assign positions and mobility models to nodes. More...
 
class  MobilityModel
 Keep track of the current position and velocity of an object. More...
 
class  MockNetDevice
 This device assumes 48-bit mac addressing; there is also the possibility to add an ErrorModel if you want to force losses on the device. More...
 
class  ModelCreator
 ModelCreator class. More...
 
struct  ModelNode
 A class used in the implementation of the GtkConfigStore. More...
 
struct  ModelTypeid
 A class used in the implementation of the GtkConfigStore. More...
 
class  ModelTypeidCreator
 ModelTypeIdCreator class. More...
 
class  MpduAggregator
 Aggregator used to construct A-MPDUs. More...
 
struct  MpduInfo
 MpduInfo structure. More...
 
class  MpiInterface
 Singleton used to interface to the communications infrastructure when running NS3 in parallel. More...
 
class  MpiReceiver
 Class to aggregate to a NetDevice if it supports MPI capability. More...
 
class  MqQueueDisc
 mq is a classful multi-queue aware dummy scheduler. More...
 
class  MsduAggregator
 Aggregator used to construct A-MSDUs. More...
 
class  MuEdcaParameterSet
 The MU EDCA Parameter Set. More...
 
class  MultiLinkElement
 The Multi-Link element. More...
 
class  MultiModelSpectrumChannel
 This SpectrumChannel implementation can handle the presence of SpectrumPhy instances which can use different spectrum models, i.e., different SpectrumModel. More...
 
class  MultiUserScheduler
 MultiUserScheduler is an abstract base class defining the API that APs supporting at least VHT can use to determine the format of their next transmission. More...
 
class  MuSnrTag
 A tag to be attached to a response to a multi-user UL frame, that carries the SNR values with which the individual frames have been received. More...
 
class  NakagamiPropagationLossModel
 Nakagami-m fast fading propagation loss model. More...
 
class  NameNode
 Node in the naming tree. More...
 
class  Names
 A directory of name and Ptr<Object> associations that allows us to give any ns3 Object a name. More...
 
class  NamesPriv
 The singleton root Names object. More...
 
class  NdiscCache
 IPv6 Neighbor Discovery cache. More...
 
class  NeighborCacheHelper
 A helper class to populate neighbor cache. More...
 
class  NetDevice
 Network layer to device interface. More...
 
class  NetDeviceContainer
 holds a vector of ns3::NetDevice pointers More...
 
class  NetDeviceQueue
 Network device transmission queue. More...
 
class  NetDeviceQueueInterface
 Network device transmission queue interface. More...
 
class  NetDeviceQueueLock
 Network device transmission queue with lock. More...
 
class  NetmapNetDevice
 a NetDevice to read/write network traffic from/into a netmap file descriptor. More...
 
class  NetmapNetDeviceFdReader
 This class performs the actual data reading from the netmap ring. More...
 
class  NetmapNetDeviceHelper
 build a set of FdNetDevice objects attached to a physical network interface More...
 
class  NeverLosChannelConditionModel
 Models a never in-LoS condition model. More...
 
class  NeverLosVehicleChannelConditionModel
 Models a never in-LoS condition model caused by a blocking vehicle. More...
 
class  NistErrorRateModel
 A model for the error rate for different modulations. More...
 
class  NixVector
 Neighbor-index data structure for nix-vector routing. More...
 
class  NixVectorHelper
 Helper class that adds Nix-vector routing to nodes. More...
 
class  NixVectorRouting
 Nix-vector routing protocol. More...
 
class  NoBackhaulEpcHelper
 Create an EPC network with PointToPoint links between the core network nodes. More...
 
class  Node
 A network Node. More...
 
class  NodeContainer
 keep track of a set of node pointers. More...
 
class  NodeList
 the list of simulation nodes. More...
 
class  NodeListPriv
 private implementation detail of the NodeList API. More...
 
class  NonCommunicatingNetDevice
 This class implements a device which does not communicate, in the sense that it does not interact with the above protocol stack. More...
 
class  NoneFileConfig
 A dummy class (does nothing) More...
 
class  NonInheritance
 The IEEE 802.11 Non-Inheritance Information Element. More...
 
class  NoOpComponentCarrierManager
 The default component carrier manager that forwards all traffic, the uplink and the downlink, over the primary carrier, and will not use secondary carriers. More...
 
class  NoOpHandoverAlgorithm
 Handover algorithm implementation which simply does nothing. More...
 
class  NormalRandomVariable
 The normal (Gaussian) distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  Ns2MobilityHelper
 Helper class which can read ns-2 movement files and configure nodes mobility. More...
 
class  NullMessageMpiInterface
 Interface between ns-3 and MPI for the Null Message distributed simulation implementation. More...
 
class  NullMessageSentBuffer
 Non-blocking send buffers for Null Message implementation. More...
 
class  NullMessageSimulatorImpl
 Simulator implementation using MPI and a Null Message algorithm. More...
 
class  Object
 A base class which provides memory management and object aggregation. More...
 
class  ObjectBase
 Anchor the ns-3 type and attribute system. More...
 
struct  ObjectDeleter
 Standard Object deleter, used by SimpleRefCount to delete an Object when the reference count drops to zero. More...
 
class  ObjectFactory
 Instantiate subclasses of ns3::Object. More...
 
class  ObjectFactoryChecker
 
class  ObjectFactoryValue
 
class  ObjectPtrContainerAccessor
 AttributeAccessor implementation for ObjectPtrContainerValue. More...
 
class  ObjectPtrContainerChecker
 AttributeChecker implementation for ObjectPtrContainerValue. More...
 
class  ObjectPtrContainerValue
 Container for a set of ns3::Object pointers. More...
 
class  ObssPdAlgorithm
 OBSS PD algorithm interface. More...
 
class  OfdmDcdChannelEncodings
 This class implements the OFDM DCD channel encodings as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems". More...
 
class  OfdmDlBurstProfile
 This class implements the OFDM Downlink burst profile descriptor as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 8.2.1.10 Burst profile formats page 416. More...
 
class  OfdmDlMapIe
 This class implements the OFDM DL-MAP information element as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.43.6 Compact DL-MAP IE page 109. More...
 
class  OfdmDownlinkFramePrefix
 OfdmDownlinkFramePrefix. More...
 
class  OfdmPhy
 PHY entity for OFDM (11a) More...
 
class  OfdmPpdu
 OFDM PPDU (11a) More...
 
class  OfdmSendParams
 OfdmSendParams class. More...
 
class  OfdmUcdChannelEncodings
 This class implements the OFDM UCD channel encodings as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 11.3.1 UCD channel encodings, page 651. More...
 
class  OfdmUlBurstProfile
 This class implements the UL burst profile as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 11.3.1.1 Uplink burst profile encodings, page 655. More...
 
class  OfdmUlMapIe
 This class implements the UL-MAP_IE message as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.43.7 UL-MAP_IE, page 115. More...
 
class  OhBuildingsPropagationLossModel
 this model combines the OkumuraHata model with the BuildingsPropagationLossModel More...
 
class  OkumuraHataPropagationLossModel
 this class implements the Okumura Hata propagation loss model More...
 
class  OlsrHelper
 Helper class that adds OLSR routing to nodes. More...
 
class  OmnetDataOutput
 Outputs data in a format compatible with OMNeT library and framework. More...
 
class  OnoeWifiManager
 an implementation of the rate control algorithm developed by Atsushi Onoe More...
 
struct  OnoeWifiRemoteStation
 hold per-remote-station state for ONOE Wifi manager. More...
 
class  OnOffApplication
 Generate traffic to a single destination according to an OnOff pattern. More...
 
class  OnOffHelper
 A helper to make it easier to instantiate an ns3::OnOffApplication on a set of nodes. More...
 
class  OpenFlowSwitchHelper
 Add capability to switch multiple LAN segments (IEEE 802.1D bridging) More...
 
class  OpenFlowSwitchNetDevice
 A net device that switches multiple LAN segments via an OpenFlow-compatible flow table. More...
 
class  OptFieldWithPresenceInd
 OptFieldWithPresenceInd is a class modeling an optional field (in an Information Element, a management frame, etc.) having an associated Presence Indicator bit. More...
 
class  OptionField
 Option field for an IPv6ExtensionHeader. More...
 
class  OrbisTopologyReader
 Topology file reader (Orbis-format type). More...
 
class  OriginatorBlockAckAgreement
 Maintains the state and information about transmitted MPDUs with Ack Policy set to Block Ack for an originator station. More...
 
class  OriginatorRxStatus
 A class to keep track of the packet originator status. More...
 
class  OutdoorPositionAllocator
 allocate outdoor positions More...
 
class  OutputStreamWrapper
 A class encapsulating an output stream. More...
 
class  Packet
 network packets More...
 
class  PacketBurst
 this class implement a burst as a list of packets More...
 
class  PacketCounterCalculator
 A stat for counting packets. More...
 
class  PacketFilter
 PacketFilter is the abstract base class for filters used by queue discs to classify packets. More...
 
class  PacketLossCounter
 A class to count the number of lost packets. More...
 
class  PacketMetadata
 Handle packet metadata about packet headers and trailers. More...
 
class  PacketProbe
 This class is designed to probe an underlying ns3 TraceSource exporting a packet. More...
 
class  PacketSink
 Receive and consume traffic generated to an IP address and port. More...
 
class  PacketSinkHelper
 A helper to make it easier to instantiate an ns3::PacketSinkApplication on a set of nodes. More...
 
class  PacketSizeMinMaxAvgTotalCalculator
 A stat for collecting packet size statistics: min, max and average. More...
 
class  PacketSocket
 A PacketSocket is a link between an application and a net device. More...
 
class  PacketSocketAddress
 an address for a packet socket More...
 
class  PacketSocketClient
 A simple client. More...
 
class  PacketSocketFactory
 This can be used as an interface in a node in order for the node to generate PacketSockets that can connect to net devices. More...
 
class  PacketSocketHelper
 Give ns3::PacketSocket powers to ns3::Node. More...
 
class  PacketSocketServer
 A server using PacketSocket. More...
 
class  PacketSocketTag
 This class implements a tag that carries the dest address of a packet and the packet type. More...
 
class  PacketTagIterator
 Iterator over the set of packet tags in a packet. More...
 
class  PacketTagList
 List of the packet tags stored in a packet. More...
 
struct  PagingInfoListElement_s
 See section 4.3.30 pagingInfoListElement. More...
 
class  PairChecker
 AttributeChecker implementation for PairValue. More...
 
class  PairValue
 AttributeValue implementation for Pair. More...
 
class  ParabolicAntennaModel
 Antenna model based on a parabolic approximation of the main lobe radiation pattern. More...
 
class  ParallelCommunicationInterface
 Pure virtual base class for the interface between ns-3 and the parallel communication layer being used. More...
 
class  ParameterLogger
 Insert , when streaming function arguments. More...
 
class  ParetoRandomVariable
 The Pareto distribution Random Number Generator (RNG). More...
 
class  ParfWifiManager
 PARF Rate control algorithm. More...
 
struct  ParfWifiRemoteStation
 Hold per-remote-station state for PARF Wifi manager. More...
 
struct  ParseResult
 Type to maintain line parsed and its values. More...
 
class  PbbAddressBlock
 An Address Block and its associated Address TLV Blocks. More...
 
class  PbbAddressBlockIpv4
 Concrete IPv4 specific PbbAddressBlock. More...
 
class  PbbAddressBlockIpv6
 Concrete IPv6 specific PbbAddressBlock. More...
 
class  PbbAddressTlv
 An Address TLV. More...
 
class  PbbAddressTlvBlock
 A block of Address TLVs (PbbAddressTlv). More...
 
class  PbbMessage
 A message within a PbbPacket packet. More...
 
class  PbbMessageIpv4
 Concrete IPv4 specific PbbMessage. More...
 
class  PbbMessageIpv6
 Concrete IPv6 specific PbbMessage class. More...
 
class  PbbPacket
 Main PacketBB Packet object. More...
 
class  PbbTlv
 A packet or message TLV. More...
 
class  PbbTlvBlock
 A block of packet or message TLVs (PbbTlv). More...
 
class  PcapFile
 A class representing a pcap file. More...
 
class  PcapFileWrapper
 A class that wraps a PcapFile as an ns3::Object and provides a higher-layer ns-3 interface to the low-level public methods of PcapFile. More...
 
class  PcapHelper
 Manage pcap files for device models. More...
 
class  PcapHelperForDevice
 Base class providing common user-level pcap operations for helpers representing net devices. More...
 
class  PcapHelperForIpv4
 Base class providing common user-level pcap operations for helpers representing IPv4 protocols . More...
 
class  PcapHelperForIpv6
 Base class providing common user-level pcap operations for helpers representing IPv6 protocols . More...
 
class  PdcpTag
 Tag to calculate the per-PDU delay from eNb PDCP to UE PDCP. More...
 
class  PfFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Proportional Fair scheduler. More...
 
class  PfifoFastQueueDisc
 Linux pfifo_fast is the default priority queue enabled on Linux systems. More...
 
struct  pfsFlowPerf_t
 pfsFlowPerf_t structure More...
 
class  PhasedArrayModel
 Class implementing the phased array model virtual base class. More...
 
class  PhasedArraySpectrumPropagationLossModel
 spectrum-aware propagation loss model that is compatible with PhasedArrayModel type of ns-3 antenna More...
 
struct  PhichListElement_s
 See section 4.3.7 phichListElement. More...
 
class  PhyEntity
 Abstract class for PHY entities. More...
 
class  PhyListener
 Listener for PHY events. More...
 
struct  PhyReceptionStatParameters
 PhyReceptionStatParameters structure. More...
 
class  PhyRxStatsCalculator
 Takes care of storing the information generated at PHY layer regarding reception. More...
 
class  PhyStatsCalculator
 Takes care of storing the information generated at PHY layer. More...
 
struct  PhyTransmissionStatParameters
 PhyTransmissionStatParameters structure. More...
 
class  PhyTxStatsCalculator
 Takes care of storing the information generated at PHY layer regarding transmission. More...
 
class  PieQueueDisc
 Implements PIE Active Queue Management discipline. More...
 
class  Ping
 This application behaves similarly to the Unix ping application, although with fewer options supported. More...
 
class  PingHelper
 Create a ping application and associate it to a node. More...
 
class  PointerChecker
 AttributeChecker implementation for PointerValue. More...
 
class  PointerValue
 AttributeValue implementation for Pointer. More...
 
class  PointToPointChannel
 Simple Point To Point Channel. More...
 
class  PointToPointDumbbellHelper
 A helper to make it easier to create a dumbbell topology with p2p links. More...
 
class  PointToPointEpcHelper
 Create an EPC network with PointToPoint links in the backhaul network. More...
 
class  PointToPointGridHelper
 A helper to make it easier to create a grid topology with p2p links. More...
 
class  PointToPointHelper
 Build a set of PointToPointNetDevice objects. More...
 
class  PointToPointNetDevice
 A Device for a Point to Point Network Link. More...
 
class  PointToPointRemoteChannel
 A Remote Point-To-Point Channel. More...
 
class  PointToPointStarHelper
 A helper to make it easier to create a star topology with PointToPoint links. More...
 
class  PortRangeTlvValue
 PortRangeTlvValue class. More...
 
class  PositionAllocator
 Allocate a set of positions. More...
 
class  PppHeader
 Packet header for PPP. More...
 
class  PreambleDetectionModel
 the interface for Wifi's preamble detection models More...
 
class  PrintList
 Handler for the undocumented print-list token in NS_LOG which triggers printing of the list of log components, then exits. More...
 
class  PriomapChecker
 
class  PriomapValue
 
class  PrioQueueDisc
 The Prio qdisc is a simple classful queueing discipline that contains an arbitrary number of classes of differing priority. More...
 
class  PriorityQueueScheduler
 a std::priority_queue event scheduler More...
 
class  PriorityUlJob
 PriorityUlJob class. More...
 
class  ProbabilisticV2vHighwayChannelConditionModel
 Computes the channel condition for the V2V Highway scenario. More...
 
class  ProbabilisticV2vUrbanChannelConditionModel
 Computes the channel condition for the V2V Urban scenario. More...
 
class  Probe
 Base class for probes. More...
 
class  PropagationCache
 Constructs a cache of objects, where each object is responsible for a single propagation path loss calculations. More...
 
class  PropagationDelayModel
 calculate a propagation delay. More...
 
class  PropagationLossModel
 Models the propagation loss through a transmission medium. More...
 
class  ProtocolTlvValue
 ProtocolTlvValue class. More...
 
class  PssFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Priority Set scheduler. More...
 
struct  pssFlowPerf_t
 Flow information. More...
 
class  Ptr
 Smart pointer class similar to boost::intrusive_ptr. More...
 
class  PyViz
 helper class to be used by the visualizer More...
 
struct  PyVizPacketTag
 PyVizPacketTag structure. More...
 
struct  qos_rb_and_CQI_assigned_to_lc
 qos_rb_and_CQI_assigned_to_lc More...
 
class  QosFrameExchangeManager
 QosFrameExchangeManager handles the frame exchange sequences for QoS stations. More...
 
class  QosTxop
 Handles the packet queue and stores DCF/EDCA access parameters (one Txop per AC). More...
 
class  Queue
 Template class for packet Queues. More...
 
class  QueueBase
 Abstract base class for packet Queues. More...
 
class  QueueDisc
 QueueDisc is an abstract base class providing the interface and implementing the operations common to all the queueing disciplines. More...
 
class  QueueDiscClass
 QueueDiscClass is the base class for classes that are included in a queue disc. More...
 
class  QueueDiscContainer
 Holds a vector of ns3::QueueDisc pointers. More...
 
class  QueueDiscFactory
 This class stores object factories required to create a queue disc and all of its components (packet filters, internal queues, classes). More...
 
class  QueueDiscItem
 QueueDiscItem is the abstract base class for items that are stored in a queue disc. More...
 
class  QueueItem
 Base class to represent items of packet Queues. More...
 
class  QueueLimits
 Abstract base class for NetDevice queue length controller. More...
 
class  QueueSize
 Class for representing queue sizes. More...
 
class  QueueSizeChecker
 
class  QueueSizeValue
 
struct  RachListElement_s
 See section 4.3.6 rachListElement. More...
 
class  RachPreambleLteControlMessage
 abstract model for the Random Access Preamble More...
 
class  RadioBearerStatsCalculator
 This class is an ns-3 trace sink that performs the calculation of PDU statistics for uplink and downlink. More...
 
class  RadioBearerStatsConnector
 This class is very useful when user needs to collect statistics from PDCP and RLC. More...
 
class  RadioEnvironmentMapHelper
 Generates a 2D map of the SINR from the strongest transmitter in the downlink of an LTE FDD system. More...
 
class  RadiotapHeader
 Radiotap header implementation. More...
 
class  Radvd
 Router advertisement daemon. More...
 
class  RadvdHelper
 Radvd application helper. More...
 
class  RadvdInterface
 Radvd interface configuration. More...
 
class  RadvdPrefix
 Router prefix for radvd application. More...
 
class  RandomBoxPositionAllocator
 Allocate random positions within a 3D box according to a set of three random variables. More...
 
class  RandomBuildingPositionAllocator
 Allocate each position by randomly choosing a building from the list of all buildings, and then randomly choosing a position inside the building. More...
 
class  RandomDirection2dMobilityModel
 Random direction mobility model. More...
 
class  RandomDiscPositionAllocator
 Allocate random positions within a disc according to a given distribution for the polar coordinates of each node with respect to the provided center of the disc. More...
 
class  RandomPropagationDelayModel
 the propagation delay is random More...
 
class  RandomPropagationLossModel
 The propagation loss follows a random distribution. More...
 
class  RandomRectanglePositionAllocator
 Allocate random positions within a rectangle according to a pair of random variables. More...
 
class  RandomRoomPositionAllocator
 Allocate each position by randomly choosing a room from the list of all buildings, and then randomly choosing a position inside the room. More...
 
class  RandomVariableStream
 The basic uniform Random Number Generator (RNG). More...
 
class  RandomVariableStreamHelper
 Helper class for static methods involving RandomVariableStream. More...
 
class  RandomWalk2dMobilityModel
 2D random walk mobility model. More...
 
class  RandomWalk2dOutdoorMobilityModel
 2D random walk mobility model which avoids buildings. More...
 
class  RandomWaypointMobilityModel
 Random waypoint mobility model. More...
 
class  RangePropagationLossModel
 The propagation loss depends only on the distance (range) between transmitter and receiver. More...
 
class  RarLteControlMessage
 abstract model for the MAC Random Access Response message More...
 
class  RateErrorModel
 Determine which packets are errored corresponding to an underlying distribution, rate, and unit. More...
 
struct  RateInfo
 A struct to contain all information related to a data rate. More...
 
struct  RateStats
 A structure containing parameters of a single rate and its statistics. More...
 
class  RawTextConfigLoad
 A class to enable loading of configuration store from a raw text file. More...
 
class  RawTextConfigSave
 A class to enable saving of configuration store in a raw text file. More...
 
class  RealProtocolRlcSapUser
 RealProtocolRlcSapUser class. More...
 
class  RealtimeSimulatorImpl
 Realtime version of SimulatorImpl. More...
 
class  ReceiveListErrorModel
 Provide a list of Packets to corrupt. More...
 
class  RecipientBlockAckAgreement
 Maintains the scoreboard and the receive reordering buffer used by a recipient of a Block Ack agreement. More...
 
class  Rectangle
 a 2d rectangle More...
 
class  RectangleChecker
 
class  RectangleValue
 
class  RedQueueDisc
 A RED packet queue disc. More...
 
class  ReducedNeighborReport
 The Reduced Neighbor Report element. More...
 
class  RemoteChannelBundle
 Collection of ns-3 channels between local and remote nodes. More...
 
class  RemoteChannelBundleManager
 Singleton for managing the RemoteChannelBundles for each process. More...
 
class  RemSpectrumPhy
 This minimal SpectrumPhy implementation calculates the SINR with respect to the strongest signal for a given point. More...
 
class  Reservation
 Stores reservation info for use in scheduling data channel by reservation channel MAC. More...
 
class  Rip
 RIP Routing Protocol, defined in RFC 2453 . More...
 
class  RipHeader
 RipHeader - see RFC 2453 More...
 
class  RipHelper
 Helper class that adds RIP routing to nodes. More...
 
class  RipNg
 RIPng Routing Protocol, defined in RFC 2080 . More...
 
class  RipNgHeader
 RipNgHeader - see RFC 2080 More...
 
class  RipNgHelper
 Helper class that adds RIPng routing to nodes. More...
 
class  RipNgRoutingTableEntry
 RipNg Routing Table Entry. More...
 
class  RipNgRte
 RipNg Routing Table Entry (RTE) - see RFC 2080 More...
 
class  RipRoutingTableEntry
 Rip Routing Table Entry. More...
 
class  RipRte
 Rip v2 Routing Table Entry (RTE) - see RFC 2453 . More...
 
class  RlcAmStatusPduTestCase
 Rlc Am Status Pdu Test Case. More...
 
struct  RlcPduListElement_s
 See section 4.3.9 rlcPDU_ListElement. More...
 
class  RlcTag
 Tag to calculate the per-PDU delay from eNb RLC to UE RLC. More...
 
class  RngReq
 This class implements the ranging request message described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems". More...
 
class  RngRsp
 This class implements the ranging response message described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.6 Ranging response (RNG-RSP) message, page 50. More...
 
class  RngSeedManager
 Manage the seed number and run number of the underlying random number generator, and automatic assignment of stream numbers. More...
 
class  RngStream
 Combined Multiple-Recursive Generator MRG32k3a. More...
 
class  RocketfuelTopologyReader
 Topology file reader (Rocketfuel-format type). More...
 
class  RraaWifiManager
 Robust Rate Adaptation Algorithm. More...
 
struct  RraaWifiRemoteStation
 hold per-remote-station state for RRAA Wifi manager. More...
 
class  RrcAsn1Header
 This class extends Asn1Header functions, adding serialization/deserialization of some Information elements defined in 3GPP TS 36.331. More...
 
class  RrcConnectionReconfigurationCompleteHeader
 This class manages the serialization/deserialization of RrcConnectionSetupComplete IE. More...
 
class  RrcConnectionReconfigurationHeader
 This class manages the serialization/deserialization of RrcConnectionReconfiguration IE. More...
 
class  RrcConnectionReestablishmentCompleteHeader
 This class manages the serialization/deserialization of RrcConnectionReestablishmentComplete IE. More...
 
class  RrcConnectionReestablishmentHeader
 This class manages the serialization/deserialization of RrcConnectionReestablishment IE. More...
 
class  RrcConnectionReestablishmentRejectHeader
 This class manages the serialization/deserialization of RrcConnectionReestablishmentReject IE. More...
 
class  RrcConnectionReestablishmentRequestHeader
 This class manages the serialization/deserialization of RRCConnectionReestablishmentRequest IE. More...
 
class  RrcConnectionRejectHeader
 This class manages the serialization/deserialization of RrcConnectionReject IE. More...
 
class  RrcConnectionReleaseHeader
 This class manages the serialization/deserialization of RrcConnectionRelease IE. More...
 
class  RrcConnectionRequestHeader
 This class manages the serialization/deserialization of RrcConnectionRequest IE. More...
 
class  RrcConnectionSetupCompleteHeader
 This class manages the serialization/deserialization of RrcConnectionSetupComplete IE. More...
 
class  RrcConnectionSetupHeader
 This class manages the serialization/deserialization of RrcConnectionSetup IE. More...
 
class  RrcDlCcchMessage
 This class only serves to discriminate which message type has been received in downlink (eNb to ue) for channel CCCH. More...
 
class  RrcDlDcchMessage
 This class only serves to discriminate which message type has been received in downlink (eNb to ue) for channel DCCH. More...
 
class  RrComponentCarrierManager
 Component carrier manager implementation that splits traffic equally among carriers. More...
 
class  RrcUlCcchMessage
 This class only serves to discriminate which message type has been received in uplink (ue to eNb) for channel CCCH. More...
 
class  RrcUlDcchMessage
 This class only serves to discriminate which message type has been received in uplink (ue to eNb) for channel DCCH. More...
 
class  RrFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Round Robin scheduler. More...
 
class  RrMultiUserScheduler
 RrMultiUserScheduler is a simple OFDMA scheduler that indicates to perform a DL OFDMA transmission if the AP has frames to transmit to at least one station. More...
 
class  RrpaaWifiManager
 
struct  RrpaaWifiRemoteStation
 Hold per-remote-station state for RRPAA Wifi manager. More...
 
class  RttEstimator
 Base class for all RTT Estimators. More...
 
class  RttHistory
 Helper class to store RTT measurements. More...
 
class  RttMeanDeviation
 The "Mean--Deviation" RTT estimator, as discussed by Van Jacobson. More...
 
class  RvBatteryModelHelper
 Creates a RvBatteryModel object. More...
 
struct  RxSignalInfo
 RxSignalInfo structure containing info on the received signal. More...
 
class  RxSpectrumModelInfo
 The Rx spectrum model information. More...
 
class  SameRoomPositionAllocator
 Walks a given NodeContainer sequentially, and for each node allocate a new position randomly in the same room of that node. More...
 
struct  SbMeasResult_s
 See section 4.3.25 sbMeasResult. More...
 
class  Scheduler
 Maintain the event list. More...
 
class  SendParams
 The SendParams class defines the parameters with which Send() function of a particular PHY is called. More...
 
class  SentBuffer
 Tracks non-blocking sends. More...
 
class  SeqTsEchoHeader
 Packet header to carry sequence number and two timestamps. More...
 
class  SeqTsHeader
 Packet header to carry sequence number and timestamp. More...
 
class  SeqTsSizeHeader
 Header with a sequence, a timestamp, and a "size" attribute. More...
 
class  SequenceNumber
 Generic "sequence number" class. More...
 
class  SequenceNumber10
 SequenceNumber10 class. More...
 
class  SequentialRandomVariable
 The Random Number Generator (RNG) that returns a pattern of sequential values. More...
 
class  ServiceFlow
 This class implements service flows as described by the IEEE-802.16 standard. More...
 
class  ServiceFlowManager
 The same service flow manager class serves both for BS and SS though some functions are exclusive to only one of them. More...
 
class  ServiceFlowRecord
 this class implements a structure to manage some parameters and statistics related to a service flow More...
 
class  SfVectorTlvValue
 SfVectorTlvValue class. More...
 
class  ShannonSpectrumErrorModel
 This class implements the error model described in this paper: N. More...
 
class  ShowProgress
 Periodically print a status message indicating simulator progress. More...
 
class  Sib1LteControlMessage
 Abstract model for broadcasting the System Information Block Type 1 (SIB1) within the control channel (BCCH). More...
 
struct  SiConfiguration_s
 See section 4.3.21 siConfiguration. More...
 
struct  SignalNoiseDbm
 SignalNoiseDbm structure. More...
 
struct  SiMessageListElement_s
 See section 4.3.22 siMessageListElement. More...
 
class  SimpleChannel
 A simple channel, for simple things and testing. More...
 
class  SimpleFrameCaptureModel
 A simple threshold-based model for frame capture effect. More...
 
class  SimpleNetDevice
 This device assumes 48-bit mac addressing; there is also the possibility to add an ErrorModel if you want to force losses on the device. More...
 
class  SimpleNetDeviceHelper
 build a set of SimpleNetDevice objects More...
 
class  SimpleOfdmSendParam
 SimpleOfdmSendParam class. More...
 
class  SimpleOfdmWimaxChannel
 SimpleOfdmWimaxChannel class. More...
 
class  SimpleOfdmWimaxPhy
 SimpleOfdmWimaxPhy class. More...
 
class  SimpleRefCount
 A template-based reference counting class. More...
 
class  SimpleTag
 SimpleNetDevice tag to store source, destination and protocol of each packet. More...
 
class  SimpleUeCcmMacSapProvider
 SimpleUeCcmMacSapProvider class. More...
 
class  SimpleUeCcmMacSapUser
 SimpleUeCcmMacSapUser class. More...
 
class  SimpleUeComponentCarrierManager
 Component carrier manager implementation which simply does nothing. More...
 
class  SimulationSingleton
 This singleton class template ensures that the type for which we want a singleton has a lifetime bounded by the simulation run lifetime. More...
 
class  Simulator
 Control the scheduling of simulation events. More...
 
class  SimulatorImpl
 The SimulatorImpl base class. More...
 
class  SingleModelSpectrumChannel
 SpectrumChannel implementation which handles a single spectrum model. More...
 
class  Singleton
 A template singleton. More...
 
class  SinkTracer
 Collects data about incoming packets. More...
 
class  SixLowPanBc0
 6LoWPAN BC0 header - see RFC 4944 . More...
 
class  SixLowPanDispatch
 Dispatch header helper. More...
 
class  SixLowPanFrag1
 6LoWPAN FRAG1 header - see RFC 4944 . More...
 
class  SixLowPanFragN
 6LoWPAN FRAGN header - see RFC 4944 . More...
 
class  SixLowPanHc1
 6LoWPAN HC1 header - see RFC 4944 . More...
 
class  SixLowPanHelper
 Setup a sixlowpan stack to be used as a shim between IPv6 and a generic NetDevice. More...
 
class  SixLowPanIphc
 LOWPAN_IPHC base Encoding - see RFC 6282 . More...
 
class  SixLowPanIpv6
 6LoWPAN IPv6 uncompressed header - see RFC 4944 . More...
 
class  SixLowPanMesh
 6LoWPAN Mesh header - see RFC 4944 . More...
 
class  SixLowPanNetDevice
 Shim performing 6LoWPAN compression, decompression and fragmentation. More...
 
class  SixLowPanNhcExtension
 LOWPAN_NHC Extension Header Encoding - see RFC 6282 . More...
 
class  SixLowPanUdpNhcExtension
 UDP LOWPAN_NHC Extension Header Encoding - see RFC 6282 . More...
 
class  SllHeader
 Protocol header serialization and deserialization. More...
 
class  SnrTag
 
class  SNRToBlockErrorRateManager
 This class handles the SNR to BlcER traces. More...
 
class  SNRToBlockErrorRateRecord
 This class represents a record (handled by SnrToBlockErrorRate manager) that keeps a mapping between an SNR value and its corresponding (1) Bit Error Rate, (2) Block Error Rate, (3) Standard deviation, (4 and 5) confidence interval. More...
 
class  Socket
 A low-level Socket API based loosely on the BSD Socket API. More...
 
class  SocketFactory
 Object to create transport layer instances that provide a socket API to applications. More...
 
class  SocketIpTosTag
 indicates whether the socket has IP_TOS set. More...
 
class  SocketIpTtlTag
 This class implements a tag that carries the socket-specific TTL of a packet to the IP layer. More...
 
class  SocketIpv6HopLimitTag
 This class implements a tag that carries the socket-specific HOPLIMIT of a packet to the IPv6 layer. More...
 
class  SocketIpv6TclassTag
 indicates whether the socket has IPV6_TCLASS set. More...
 
class  SocketPriorityTag
 indicates whether the socket has a priority set. More...
 
class  SocketSetDontFragmentTag
 indicates whether packets should be sent out with the DF (Don't Fragment) flag set. More...
 
class  SocketWriter
 Simple class to write data to sockets. More...
 
struct  SortProcess
 SortProcess structure. More...
 
struct  SortProcessPtr
 SortProcessPtr structure. More...
 
class  SpectrumAnalyzer
 Simple SpectrumPhy implementation that averages the spectrum power density of incoming transmissions to produce a spectrogram. More...
 
class  SpectrumAnalyzerHelper
 Class to allow the Spectrum Analysis. More...
 
class  SpectrumChannel
 Defines the interface for spectrum-aware channel implementations. More...
 
class  SpectrumChannelHelper
 Setup a SpectrumChannel. More...
 
class  SpectrumConverter
 Class which implements a converter between SpectrumValue which are defined over different SpectrumModel. More...
 
class  SpectrumErrorModel
 
class  SpectrumInterference
 This class implements a gaussian interference model, i.e., all incoming signals are added to the total interference. More...
 
class  SpectrumModel
 Set of frequency values implementing the domain of the functions in the Function Space defined by SpectrumValue. More...
 
class  SpectrumPhy
 Abstract base class for Spectrum-aware PHY layers. More...
 
class  SpectrumPhyHelper
 Create and configure several SpectrumPhy instances and connect them to a channel. More...
 
class  SpectrumPropagationLossModel
 spectrum-aware propagation loss model More...
 
struct  SpectrumSignalParameters
 This struct provides the generic signal representation to be used by all wireless technologies. More...
 
class  SpectrumTransmitFilter
 spectrum-aware transmit filter object More...
 
class  SpectrumValue
 Set of values corresponding to a given SpectrumModel. More...
 
class  SpectrumValue5MhzFactory
 Implements Wifi SpectrumValue for the 2.4 GHz ISM band only, with a 5 MHz spectrum resolution. More...
 
class  SpectrumWifiPhy
 802.11 PHY layer model More...
 
class  SpectrumWifiPhyHelper
 Make it easy to create and manage PHY objects for the spectrum model. More...
 
class  SPFVertex
 Vertex used in shortest path first (SPF) computations. More...
 
struct  SpsConfig_s
 See section 4.3.17 spsConfig. More...
 
class  SqliteDataOutput
 Outputs data in a format compatible with SQLite. More...
 
class  SQLiteOutput
 A C++ interface towards an SQLITE database. More...
 
struct  SrConfig_s
 See section 4.3.18 srConfig. More...
 
struct  SrListElement_s
 See section 4.3.13 srListElement. More...
 
class  SrsCqiRntiVsp
 Define the RNTI that has generated the. More...
 
class  Ssid
 The IEEE 802.11 SSID Information Element. More...
 
class  SsidChecker
 
class  SsidValue
 
class  SSLinkManager
 this class implements the link manager of subscriber station net device. More...
 
class  SSManager
 this class manages a list of SSrecords More...
 
class  SSRecord
 This class is used by the base station to store some information related to subscriber station in the cell. More...
 
class  SSScheduler
 
class  SsServiceFlowManager
 SsServiceFlowManager class. More...
 
class  static_SpectrumModel300Khz300GhzLog_initializer
 Static initializer class for Spectrum model logger for frequencies between 300 Khz 300 Ghz. More...
 
class  static_SpectrumModelIsm2400MhzRes1Mhz_initializer
 Static initializer class for Spectrum model logger for frequencies in the 2.4 GHz ISM band with 1 MHz resolution. More...
 
class  StatisticalSummary
 Abstract class for calculating statistical data. More...
 
class  StatusCode
 Status code for association response. More...
 
class  StaWifiMac
 The Wifi MAC high model for a non-AP STA in a BSS. More...
 
class  SteadyStateRandomWaypointMobilityModel
 Steady-state random waypoint mobility model. More...
 
class  StringChecker
 
class  StringValue
 Hold variables of type string. More...
 
class  SubscriberStationNetDevice
 SubscriberStationNetDevice subclass of WimaxNetDevice. More...
 
class  SupportedRates
 The Supported Rates Information Element. More...
 
class  Synchronizer
 Base class used for synchronizing the simulation events to some real time "wall clock.". More...
 
class  SystemWallClockMs
 Measure elapsed wall clock time in milliseconds. More...
 
class  SystemWallClockMsPrivate
 System-dependent implementation for SystemWallClockMs. More...
 
class  SystemWallClockTimestamp
 Utility class to record the difference between two wall-clock times. More...
 
class  TableBasedErrorRateModel
 
class  Tag
 tag a set of bytes in a packet More...
 
class  TagBuffer
 read and write tag data More...
 
class  Tap
 Holds PDP Tap information (amplitude and delay) More...
 
class  TapBridge
 A bridge to make it appear that a real host process is connected to an ns-3 net device. More...
 
class  TapBridgeFdReader
 Class to perform the actual reading from a socket. More...
 
class  TapBridgeHelper
 build TapBridge to allow ns-3 simulations to interact with Linux tap devices and processes on the Linux host. More...
 
class  TapFdNetDeviceHelper
 build a set of FdNetDevice objects attached to a virtual TAP network interface More...
 
class  TbfQueueDisc
 A TBF packet queue disc. More...
 
struct  TbId_t
 TbId_t structure. More...
 
struct  tbInfo_t
 tbInfo_t structure More...
 
struct  TbStats_t
 TbStats_t structure. More...
 
class  TcpBbr
 BBR congestion control algorithm. More...
 
class  TcpBbrCheckGainValuesTest
 Tests whether BBR sets correct value of pacing and cwnd gain based on different state. More...
 
class  TcpBbrPacingEnableTest
 Testing whether BBR enables pacing. More...
 
class  TcpBbrTestSuite
 TCP BBR TestSuite. More...
 
class  TcpBic
 BIC congestion control algorithm. More...
 
class  TcpClassicRecovery
 The Classic recovery implementation. More...
 
class  TcpCloseWithLossTestCase
 Check if the TCP correctly close the connection after receiving previously lost data. More...
 
class  TcpCongestionOps
 Congestion control abstract class. More...
 
class  TcpCubic
 The Cubic Congestion Control Algorithm. More...
 
class  TcpDctcp
 An implementation of DCTCP. More...
 
class  TcpEcnTest
 checks if ECT, CWR and ECE bits are set correctly in different scenarios More...
 
class  TcpEcnTestSuite
 TCP ECN TestSuite. More...
 
class  TcpFlagErrorModel
 Error model which drop packets with specified TCP flags. More...
 
class  TcpGeneralErrorModel
 A general (TCP-aware) error model. More...
 
class  TcpGeneralTest
 General infrastructure for TCP testing. More...
 
class  TcpHeader
 Header for the Transmission Control Protocol. More...
 
class  TcpHighSpeed
 An implementation of TCP HighSpeed. More...
 
class  TcpHtcp
 An implementation of the H-TCP variant of TCP. More...
 
class  TcpHybla
 Implementation of the TCP Hybla algorithm. More...
 
class  TcpIllinois
 An implementation of TCP Illinois algorithm. More...
 
class  TcpL4Protocol
 TCP socket creation and multiplexing/demultiplexing. More...
 
class  TcpLedbat
 An implementation of LEDBAT. More...
 
class  TcpLinuxReno
 Reno congestion control algorithm. More...
 
class  TcpLp
 TCP-LP (Low Priority) congestion control algorithm. More...
 
class  TcpLpInferenceTest1
 Testing TcpLp when cwd exceeds threshold. More...
 
class  TcpLpInferenceTest2
 Testing TcpLp when it is inference phase. More...
 
class  TcpLpTestSuite
 Test the behaviour common to New Reno. More...
 
class  TcpLpToNewReno
 Testing the behaviour common to New Reno. More...
 
class  TcpNewReno
 The NewReno implementation. More...
 
class  TcpOption
 Base class for all kinds of TCP options. More...
 
class  TcpOptionEnd
 Defines the TCP option of kind 0 (end of option list) as in RFC 793 More...
 
class  TcpOptionMSS
 Defines the TCP option of kind 2 (maximum segment size) as in RFC 793 More...
 
class  TcpOptionNOP
 Defines the TCP option of kind 1 (no operation) as in RFC 793 More...
 
class  TcpOptionSack
 Defines the TCP option of kind 5 (selective acknowledgment option) as in RFC 2018 More...
 
class  TcpOptionSackPermitted
 Defines the TCP option of kind 4 (selective acknowledgment permitted option) as in RFC 2018 More...
 
class  TcpOptionTS
 Defines the TCP option of kind 8 (timestamp option) as in RFC 1323 More...
 
class  TcpOptionUnknown
 An unknown TCP option. More...
 
class  TcpOptionWinScale
 Defines the TCP option of kind 3 (window scale option) as in RFC 1323 More...
 
class  TcpPrrRecovery
 An implementation of PRR. More...
 
class  TcpRateLinux
 Linux management and generation of Rate information for TCP. More...
 
class  TcpRateOps
 Interface for all operations that involve a Rate monitoring for TCP. More...
 
class  TcpRecoveryOps
 recovery abstract class More...
 
class  TcpRxBuffer
 Rx reordering buffer for TCP. More...
 
class  TcpScalable
 An implementation of TCP Scalable. More...
 
class  TcpSeqErrorModel
 An error model TCP aware: it drops the sequence number declared. More...
 
class  TcpSocket
 (abstract) base class of all TcpSockets More...
 
class  TcpSocketBase
 A base class for implementation of a stream socket using TCP. More...
 
class  TcpSocketCongestedRouter
 A TCP socket which sends certain data packets with CE flags set for tests 5 and 6. More...
 
class  TcpSocketFactory
 API to create TCP socket instances. More...
 
class  TcpSocketFactoryImpl
 socket factory implementation for native ns-3 TCP More...
 
class  TcpSocketMsgBase
 Class for inserting callbacks special points of the flow of TCP sockets. More...
 
class  TcpSocketSmallAcks
 A TCP socket which sends ACKs smaller than the segment received. More...
 
class  TcpSocketState
 Data structure that records the congestion state of a connection. More...
 
class  TcpTcpCloseTestSuite
 Check if the TCP is correctly closing its state. More...
 
class  TcpTxBuffer
 Tcp sender buffer. More...
 
class  TcpTxItem
 Item that encloses the application packet and some flags for it. More...
 
class  TcpVegas
 An implementation of TCP Vegas. More...
 
class  TcpVeno
 An implementation of TCP Veno. More...
 
class  TcpWestwoodPlus
 An implementation of TCP Westwood+. More...
 
class  TcpYeah
 An implementation of TCP YeAH. More...
 
class  TdBetFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Time Domain Blind Equal Throughput scheduler. More...
 
struct  tdbetsFlowPerf_t
 tdbetsFlowPerf_t structure More...
 
class  TdMtFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Time Domain Maximize Throughput scheduler. More...
 
class  TdTbfqFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Time Domain Token Bank Fair Queue scheduler. More...
 
struct  tdtbfqsFlowPerf_t
 Flow information. More...
 
class  TestCase
 encapsulates test code More...
 
struct  TestCaseFailure
 Container for details of a test failure. More...
 
class  TestRunner
 A runner to execute tests. More...
 
class  TestRunnerImpl
 Container for all tests. More...
 
class  TestSuite
 A suite of tests to run. More...
 
class  TestUtils
 Test Utils. More...
 
class  TestVectors
 A simple way to store test vectors (for stimulus or from responses) More...
 
class  ThompsonSamplingWifiManager
 Thompson Sampling rate control algorithm. More...
 
struct  ThompsonSamplingWifiRemoteStation
 Holds station state and collected statistics. More...
 
class  ThreeGppAntennaModel
 Antenna model based on a parabolic approximation of the main lobe radiation pattern. More...
 
class  ThreeGppChannelConditionModel
 Base class for the 3GPP channel condition models. More...
 
class  ThreeGppChannelModel
 Channel Matrix Generation following 3GPP TR 38.901. More...
 
class  ThreeGppHttpClient
 Model application which simulates the traffic of a web browser. More...
 
class  ThreeGppHttpClientHelper
 Helper to make it easier to instantiate an ThreeGppHttpClient on a set of nodes. More...
 
class  ThreeGppHttpHeader
 Header used by web browsing applications to transmit information about content type, content length and timestamps for delay statistics. More...
 
class  ThreeGppHttpServer
 Model application which simulates the traffic of a web server. More...
 
class  ThreeGppHttpServerHelper
 Helper to make it easier to instantiate an ThreeGppHttpServer on a set of nodes. More...
 
class  ThreeGppHttpServerTxBuffer
 
class  ThreeGppHttpVariables
 Container of various random variables to assist in generating web browsing traffic pattern. More...
 
class  ThreeGppIndoorMixedOfficeChannelConditionModel
 Computes the channel condition for the Indoor Mixed Office scenario. More...
 
class  ThreeGppIndoorOfficePropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.901, Table 7.4.1-1 for the Indoor Office scenario. More...
 
class  ThreeGppIndoorOpenOfficeChannelConditionModel
 Computes the channel condition for the Indoor Open Office scenario. More...
 
class  ThreeGppNTNDenseUrbanChannelConditionModel
 Computes the channel condition for the NTN Dense Urban Scenario. More...
 
class  ThreeGppNTNDenseUrbanPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.811, Table ???? for the NTN Dense Urban scenario. More...
 
class  ThreeGppNTNRuralChannelConditionModel
 Computes the channel condition for the NTN Rural Scenario. More...
 
class  ThreeGppNTNRuralPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.811, Table ???? for the NTN Rural scenario. More...
 
class  ThreeGppNTNSuburbanChannelConditionModel
 Computes the channel condition for the NTN Suburban Scenario. More...
 
class  ThreeGppNTNSuburbanPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.811, Table ???? for the NTN Suburban scenario. More...
 
class  ThreeGppNTNUrbanChannelConditionModel
 Computes the channel condition for the NTN Urban Scenario. More...
 
class  ThreeGppNTNUrbanPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.811, Table ???? for the NTN Urban scenario. More...
 
class  ThreeGppPropagationLossModel
 Base class for the 3GPP propagation models. More...
 
class  ThreeGppRmaChannelConditionModel
 Computes the channel condition for the RMa scenario. More...
 
class  ThreeGppRmaPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.901, Table 7.4.1-1 for the RMa scenario. More...
 
class  ThreeGppSpectrumPropagationLossModel
 3GPP Spectrum Propagation Loss Model More...
 
class  ThreeGppUmaChannelConditionModel
 Computes the channel condition for the UMa scenario. More...
 
class  ThreeGppUmaPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.901, Table 7.4.1-1 for the UMa scenario. More...
 
class  ThreeGppUmiStreetCanyonChannelConditionModel
 Computes the channel condition for the UMi-Street canyon scenario. More...
 
class  ThreeGppUmiStreetCanyonPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 38.901, Table 7.4.1-1 for the UMi-Street Canyon scenario. More...
 
class  ThreeGppV2vHighwayChannelConditionModel
 Computes the channel condition for the V2V Highway scenario. More...
 
class  ThreeGppV2vHighwayPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 37.885, Table 6.2.1-1 for the Highway scenario. More...
 
class  ThreeGppV2vUrbanChannelConditionModel
 Computes the channel condition for the V2V Urban scenario. More...
 
class  ThreeGppV2vUrbanPropagationLossModel
 Implements the pathloss model defined in 3GPP TR 37.885, Table 6.2.1-1 for the Urban scenario. More...
 
class  ThreeLogDistancePropagationLossModel
 A log distance path loss propagation model with three distance fields. More...
 
class  ThresholdPreambleDetectionModel
 A threshold-based model for detecting PHY preamble. More...
 
class  TidToLinkMapping
 TID-to-Link Mapping Information Element. More...
 
class  Tim
 The Traffic Indication Map Information Element. More...
 
class  Time
 Simulation virtual time values and global simulation resolution. More...
 
class  TimeInitializationHelper
 Helper class to force static initialization of Time in each compilation unit, ensuring it is initialized before usage. More...
 
class  TimeMinMaxAvgTotalCalculator
 Unfortunately, templating the base MinMaxAvgTotalCalculator to operate over Time values isn't straightforward. More...
 
class  TimeProbe
 This class is designed to probe an underlying ns3 TraceSource exporting an ns3::Time. More...
 
class  Timer
 A simple virtual Timer class. More...
 
class  TimeSeriesAdaptor
 Takes probed values of different types and outputs the current time plus the value with both converted to doubles. More...
 
class  TimestampTag
 Timestamp tag for associating a timestamp with a packet. More...
 
class  TimeValue
 
class  TimeWithUnit
 A Time with attached unit, to facilitate output in that unit. More...
 
class  Tlv
 This class implements the Type-Len-Value structure channel encodings as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems". More...
 
class  TlvValue
 The value field of a tlv can take different values (uint8_t, uint16, vector, ...). More...
 
class  TopologyReader
 Interface for input file readers management. More...
 
class  TopologyReaderHelper
 Helper class which makes it easier to configure and use a generic TopologyReader. More...
 
class  TosTlvValue
 TosTlvValue class. More...
 
class  TracedCallback
 Forward calls to a chain of Callback. More...
 
class  TracedValue
 Trace classes with value semantics. More...
 
class  TraceFadingLossModel
 fading loss model based on precalculated fading traces More...
 
class  TraceSourceAccessor
 Control access to objects' trace sources. More...
 
class  TrafficControlHelper
 Build a set of QueueDisc objects. More...
 
class  TrafficControlLayer
 The Traffic Control layer aims at introducing an equivalent of the Linux Traffic Control infrastructure into ns-3. More...
 
class  Trailer
 Protocol trailer serialization and deserialization. More...
 
class  TransmissionModesLayers
 TransmissionModesLayers class. More...
 
class  TriangularRandomVariable
 The triangular distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  TrickleTimer
 A Trickle Timer following RFC 6206 . More...
 
class  TtaFfMacScheduler
 Implements the SCHED SAP and CSCHED SAP for a Throughput to Average scheduler. More...
 
class  TupleChecker
 Checker for attribute values storing tuples. More...
 
class  TupleValue
 AttributeValue implementation for Tuple. More...
 
class  TutorialApp
 Tutorial - a simple Application sending packets. More...
 
struct  TvSpectrumModelId
 Used as key for map containing created spectrum models. More...
 
class  TvSpectrumTransmitter
 SpectrumPhy implementation that creates a customizable TV transmitter which transmits a PSD spectrum specified by user-set attributes. More...
 
class  TvSpectrumTransmitterHelper
 Helper class which uses TvSpectrumTransmitter class to create customizable TV transmitter(s) that transmit PSD spectrum specified by user-set attributes. More...
 
class  TwoRayGroundPropagationLossModel
 a Two-Ray Ground propagation loss model ported from NS2 More...
 
class  TwoRaySpectrumPropagationLossModel
 Two Ray Spectrum Propagation Loss Model. More...
 
class  Txop
 Handles the packet queue and stores DCF/EDCA access parameters (one Txop per AC). More...
 
class  TxSpectrumModelInfo
 The Tx spectrum model information. More...
 
class  TypeId
 a unique identifier for an interface. More...
 
class  TypeIdChecker
 
class  TypeIdValue
 
struct  TypeTraits
 Inspect a type to deduce its features. More...
 
class  U16TlvValue
 U16TlvValue class. More...
 
class  U32TlvValue
 U32TlvValue class. More...
 
class  U8TlvValue
 U8TlvValue class. More...
 
class  UanChannel
 Channel class used by UAN devices. More...
 
class  UanHeaderCommon
 Common packet header fields. More...
 
class  UanHeaderRcAck
 Header used for ACK packets by protocol UanMacRc. More...
 
class  UanHeaderRcCts
 CTS header. More...
 
class  UanHeaderRcCtsGlobal
 Cycle broadcast information. More...
 
class  UanHeaderRcData
 Extra data header information. More...
 
class  UanHeaderRcRts
 RTS header. More...
 
class  UanHelper
 UAN configuration helper. More...
 
class  UanMac
 Virtual base class for all UAN MAC protocols. More...
 
class  UanMacAloha
 ALOHA MAC Protocol, the simplest MAC protocol for wireless networks. More...
 
class  UanMacCw
 CW-MAC protocol, similar in idea to the 802.11 DCF with constant backoff window. More...
 
class  UanMacRc
 Non-gateway node MAC for reservation channel MAC protocol. More...
 
class  UanMacRcGw
 Gateway side of RC-MAC. More...
 
class  UanModesList
 Container for UanTxModes. More...
 
class  UanModesListChecker
 
class  UanModesListValue
 
class  UanNetDevice
 Net device for UAN models. More...
 
class  UanNoiseModel
 UAN Noise Model base class. More...
 
class  UanNoiseModelDefault
 Standard ambient acoustic noise model. More...
 
class  UanPacketArrival
 Class consisting of packet arrival information (Time, RxPower, mode, PDP). More...
 
class  UanPdp
 The power delay profile returned by propagation models. More...
 
class  UanPhy
 Base class for UAN Phy models. More...
 
class  UanPhyCalcSinr
 Class used for calculating SINR of packet in UanPhy. More...
 
class  UanPhyCalcSinrDefault
 Default SINR calculator for UanPhyGen. More...
 
class  UanPhyCalcSinrDual
 Default SINR model for UanPhyDual. More...
 
class  UanPhyCalcSinrFhFsk
 WHOI Micromodem like FH-FSK model. More...
 
class  UanPhyDual
 Two channel Phy. More...
 
class  UanPhyGen
 Generic PHY model. More...
 
class  UanPhyListener
 Interface for PHY event listener. More...
 
class  UanPhyPer
 Calculate packet error probability, based on received SINR and modulation (mode). More...
 
class  UanPhyPerCommonModes
 Packet error rate calculation for common tx modes based on UanPhyPerUmodem. More...
 
class  UanPhyPerGenDefault
 Default Packet Error Rate calculator for UanPhyGen. More...
 
class  UanPhyPerUmodem
 Packet error rate calculation assuming WHOI Micromodem-like PHY (FH-FSK) More...
 
class  UanPropModel
 Base class for implemented underwater propagation models. More...
 
class  UanPropModelIdeal
 Ideal propagation model (no pathloss, impulse PDP). More...
 
class  UanPropModelThorp
 Uses Thorp's approximation to compute pathloss. More...
 
struct  UanProtocolBits
 UAN protocol descriptor. More...
 
class  UanTransducer
 Virtual base for Transducer objects. More...
 
class  UanTransducerHd
 Half duplex implementation of transducer object. More...
 
class  UanTxMode
 Abstraction of packet modulation information. More...
 
class  UanTxModeFactory
 Global database of UanTxMode objects, retrievable by id or name. More...
 
class  Ucd
 This class implements the UCD message as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 6.3.2.3.3 Uplink Channel Descriptor (UCD) message, page 47. More...
 
class  UcdChannelEncodings
 This class implements the UCD channel encodings as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 11.3.1 UCD channel encodings, page 651. More...
 
class  UdpClient
 A Udp client. More...
 
class  UdpClientHelper
 Create a client application which sends UDP packets carrying a 32bit sequence number and a 64 bit time stamp. More...
 
class  UdpEchoClient
 A Udp Echo client. More...
 
class  UdpEchoClientHelper
 Create an application which sends a UDP packet and waits for an echo of this packet. More...
 
class  UdpEchoServer
 A Udp Echo server. More...
 
class  UdpEchoServerHelper
 Create a server application which waits for input UDP packets and sends them back to the original sender. More...
 
class  UdpHeader
 Packet header for UDP packets. More...
 
class  UdpL4Protocol
 Implementation of the UDP protocol. More...
 
class  UdpServer
 A UDP server, receives UDP packets from a remote host. More...
 
class  UdpServerHelper
 Create a server application which waits for input UDP packets and uses the information carried into their payload to compute delay and to determine if some packets are lost. More...
 
class  UdpSocket
 (abstract) base class of all UdpSockets More...
 
class  UdpSocketFactory
 API to create UDP socket instances. More...
 
class  UdpSocketFactoryImpl
 Object to create UDP socket instances. More...
 
class  UdpSocketImpl
 A sockets interface to UDP. More...
 
class  UdpTraceClient
 A trace based streamer. More...
 
class  UdpTraceClientHelper
 Create UdpTraceClient application which sends UDP packets based on a trace file of an MPEG4 stream. More...
 
struct  UeCapabilities_s
 See section 4.3.20 ueCapabilities. More...
 
class  UeManager
 Manages all the radio bearer information possessed by the ENB RRC for a single UE. More...
 
class  UeMemberLteMacSapProvider
 UeMemberLteMacSapProvider class. More...
 
class  UeMemberLteUeCmacSapProvider
 UeMemberLteUeCmacSapProvider class. More...
 
class  UeMemberLteUeCmacSapUser
 UeMemberLteUeCmacSapUser class. More...
 
class  UeMemberLteUePhySapProvider
 UeMemberLteUePhySapProvider class. More...
 
class  UeMemberLteUePhySapUser
 UeMemberLteUePhySapUser. More...
 
struct  UeSelected_s
 See section 4.3.26 ueSelected. More...
 
class  Uinteger16Probe
 This class is designed to probe an underlying ns3 TraceSource exporting an uint16_t. More...
 
class  Uinteger32Probe
 This class is designed to probe an underlying ns3 TraceSource exporting an uint32_t. More...
 
class  Uinteger8Probe
 This class is designed to probe an underlying ns3 TraceSource exporting an uint8_t. More...
 
class  UintegerValue
 Hold an unsigned integer type. More...
 
struct  UlCqi_s
 See section 4.3.29 ulCQI. More...
 
struct  UlDciListElement_s
 See section 4.3.2 ulDciListElement. More...
 
class  UlDciLteControlMessage
 The Uplink Data Control Indicator messages defines the RB allocation for the users in the uplink. More...
 
struct  UlGrant_s
 Substitutive structure for specifying BuildRarListElement_s::m_grant field. More...
 
struct  UlInfoListElement_s
 See section 4.3.12 ulInfoListElement. More...
 
class  UlJob
 this class implements a structure to compute the priority of service flows More...
 
class  UlMap
 This class implements the UL-MAP_IE message as described by "IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed Broadband Wireless Access Systems" 8.2.1.8.2 Compressed UL-MAP, page 404. More...
 
class  UniformDiscPositionAllocator
 Allocate the positions uniformly (with constant density) randomly within a disc. More...
 
class  UniformPlanarArray
 Class implementing Uniform Planar Array (UPA) model. More...
 
class  UniformRandomBitGenerator
 Wraps a UniformRandomVariable into a class that meets the requirements of a UniformRandomBitGenerator as specified by the C++11 standard, thus allowing the usage of ns-3 style UniformRandomVariables as generators in the functions of the standard random library. More...
 
class  UniformRandomVariable
 The uniform distribution Random Number Generator (RNG). More...
 
class  UplinkLteGlobalPathlossDatabase
 Store the last pathloss value for each TX-RX pair for uplink. More...
 
class  UplinkScheduler
 Virtual class for uplink scheduler. More...
 
class  UplinkSchedulerMBQoS
 This class implements a Migration-based Quality of Service uplink scheduler(MBQoS). More...
 
class  UplinkSchedulerRtps
 This class implements a simple uplink scheduler for rtPS flows. More...
 
class  UplinkSchedulerSimple
 Uplink Scheduler - simplified. More...
 
class  V4TraceRoute
 Traceroute application sends one ICMP ECHO request with TTL=1, and after receiving an ICMP TIME EXCEED reply, it increases the TTL and repeat the process to reveal all the intermediate hops to the destination. More...
 
class  V4TraceRouteHelper
 Create a IPv4 traceroute application and associate it to a node. More...
 
class  ValArray
 ValArray is a class to efficiently store 3D array. More...
 
class  ValueClassTest
 Test class for TracedValue callbacks attributes. More...
 
class  ValueClassTestChecker
 
class  ValueClassTestValue
 
class  Vector2D
 a 2d vector More...
 
class  Vector2DChecker
 
class  Vector2DValue
 
class  Vector3D
 a 3d vector More...
 
class  Vector3DChecker
 
class  Vector3DValue
 
class  VectorTlvValue
 this class is used to implement a vector of values in one tlv value field More...
 
struct  VendorSpecificListElement_s
 See section 4.3.3 vendorSpecificListElement. More...
 
struct  VendorSpecificValue
 Base class for storing the values of vendor specific parameters. More...
 
class  Version
 Helper class providing functions to access various parts of the version string, as well as functions for composing short and long variants of the version string. More...
 
class  VhtCapabilities
 The IEEE 802.11ac VHT Capabilities. More...
 
class  VhtConfiguration
 VHT configuration. More...
 
class  VhtFrameExchangeManager
 VhtFrameExchangeManager handles the frame exchange sequences for VHT stations. More...
 
class  VhtOperation
 The VHT Operation Information Element. More...
 
class  VhtPhy
 PHY entity for VHT (11ac) More...
 
class  VhtPpdu
 VHT PPDU (11ac) More...
 
class  VirtualNetDevice
 A virtual device, similar to Linux TUN/TAP interfaces. More...
 
class  VisualSimulatorImpl
 A replacement simulator that starts the visualizer. More...
 
class  WallClockSynchronizer
 Class used for synchronizing the simulation events to a real-time "wall clock" using Posix clock functions. More...
 
class  Watchdog
 A very simple watchdog operating in virtual time. More...
 
class  WaveformGenerator
 Simple SpectrumPhy implementation that sends customizable waveform. More...
 
class  WaveformGeneratorHelper
 Create a Waveform generator, which can be used to inject specific noise in the channel. More...
 
class  Waypoint
 a (time, location) pair. More...
 
class  WaypointChecker
 
class  WaypointMobilityModel
 Waypoint-based mobility model. More...
 
class  WaypointValue
 
class  WeibullRandomVariable
 The Weibull distribution Random Number Generator (RNG) which allows stream numbers to be set deterministically. More...
 
class  WifiAc
 This class stores the pair of TIDs of an Access Category. More...
 
struct  WifiAckAfterTbPpdu
 WifiAckAfterTbPpdu is used when a station prepares a TB PPDU to send in response to a Basic Trigger Frame. More...
 
class  WifiAckManager
 WifiAckManager is an abstract base class. More...
 
struct  WifiAcknowledgment
 WifiAcknowledgment is an abstract base struct. More...
 
class  WifiActionHeader
 See IEEE 802.11 chapter 7.3.1.11 Header format: | category: 1 | action value: 1 |. More...
 
struct  WifiAddressHash
 Function object to compute the hash of a MAC address. More...
 
struct  WifiAddressTidHash
 Function object to compute the hash of a (MAC address, TID) pair. More...
 
class  WifiAssocManager
 Abstract base class for the Association Manager, which manages scanning and association for single link devices and ML discovery and setup for multi-link devices. More...
 
class  WifiBandwidthFilter
 
struct  WifiBarBlockAck
 WifiBarBlockAck specifies that a BlockAckReq is sent to solicit a Block Ack response. More...
 
struct  WifiBlockAck
 WifiBlockAck specifies that acknowledgment via Block Ack is required. More...
 
struct  WifiCtsToSelfProtection
 WifiCtsToSelfProtection specifies that CTS-to-self protection method is used. More...
 
class  WifiDefaultAckManager
 WifiDefaultAckManager is the default ack manager. More...
 
class  WifiDefaultAssocManager
 Default wifi Association Manager. More...
 
class  WifiDefaultProtectionManager
 WifiDefaultProtectionManager is the default protection manager, which selects the protection method for a frame based on its size. More...
 
struct  WifiDlMuAggregateTf
 WifiDlMuAggregateTf specifies that a DL MU PPDU made of PSDUs including each a MU-BAR Trigger Frame is acknowledged through BlockAck frames sent as HE TB PPDUs. More...
 
struct  WifiDlMuBarBaSequence
 WifiDlMuBarBaSequence specifies that a DL MU PPDU is acknowledged through a sequence of BlockAckReq and BlockAck frames. More...
 
struct  WifiDlMuTfMuBar
 WifiDlMuTfMuBar specifies that a DL MU PPDU is followed after a SIFS duration by a MU-BAR Trigger Frame (sent as single user frame) soliciting BlockAck frames sent as HE TB PPDUs. More...
 
class  WifiHelper
 helps to create WifiNetDevice objects More...
 
class  WifiInformationElement
 Information element, as defined in 802.11-2007 standard. More...
 
class  WifiMac
 base class for all MAC-level wifi objects. More...
 
class  WifiMacHeader
 Implements the IEEE 802.11 MAC header. More...
 
class  WifiMacHelper
 create MAC layers for a ns3::WifiNetDevice. More...
 
class  WifiMacQueue
 This queue implements the timeout procedure described in (Section 9.19.2.6 "Retransmit procedures" paragraph 6; IEEE 802.11-2012). More...
 
class  WifiMacQueueContainer
 Class for the container used by WifiMacQueue. More...
 
struct  WifiMacQueueElem
 Type of elements stored in a WifiMacQueue container. More...
 
class  WifiMacQueueScheduler
 WifiMacQueueScheduler is an abstract base class defining the public interface for a wifi MAC queue scheduler. More...
 
class  WifiMacQueueSchedulerImpl
 WifiMacQueueSchedulerImpl is a template class enabling the definition of different types of priority values for the container queues. More...
 
class  WifiMacTrailer
 Implements the IEEE 802.11 MAC trailer. More...
 
class  WifiMgtHeader
 Implement the header for management frames. More...
 
class  WifiMgtHeader< Derived, std::tuple< Elems... > >
 Base class for implementing management frame headers. More...
 
class  WifiMode
 represent a single transmission mode More...
 
class  WifiModeChecker
 
class  WifiModeFactory
 create WifiMode class instances and keep track of them. More...
 
class  WifiModeValue
 
class  WifiMpdu
 WifiMpdu stores a (const) packet along with a MAC header. More...
 
struct  WifiMuRtsCtsProtection
 WifiMuRtsCtsProtection specifies that MU-RTS/CTS protection method is used. More...
 
class  WifiNetDevice
 Hold together all Wifi-related objects. More...
 
struct  WifiNoAck
 WifiNoAck specifies that no acknowledgment is required. More...
 
struct  WifiNoProtection
 WifiNoProtection specifies that no protection method is used. More...
 
struct  WifiNormalAck
 WifiNormalAck specifies that acknowledgment via Normal Ack is required. More...
 
class  WifiPhy
 802.11 PHY layer model More...
 
class  WifiPhyHelper
 create PHY objects More...
 
class  WifiPhyListener
 receive notifications about PHY events. More...
 
class  WifiPhyOperatingChannel
 Class that keeps track of all information about the current PHY operating channel. More...
 
class  WifiPhyRxTraceHelper
 Assists in tracing and analyzing Wi-Fi Physical Layer (PHY) receptions. More...
 
class  WifiPhyRxTraceSink
 Sink class for capturing and analyzing PHY layer reception events in Wi-Fi networks. More...
 
class  WifiPhyStateHelper
 This objects implements the PHY state machine of the Wifi device. More...
 
struct  WifiPhyTraceStatistics
 Keeps track of PHY layer trace statistics. More...
 
class  WifiPpdu
 WifiPpdu stores a preamble, a modulation class, PHY headers and a PSDU. More...
 
struct  WifiPpduRxRecord
 Structure recording a received PPDU (Physical Protocol Data Unit) in a Wi-Fi network. More...
 
struct  WifiProtection
 WifiProtection is an abstract base struct. More...
 
class  WifiProtectionManager
 WifiProtectionManager is an abstract base class. More...
 
class  WifiPsdu
 WifiPsdu stores an MPDU, S-MPDU or A-MPDU, by keeping header(s) and payload(s) separate for each constituent MPDU. More...
 
class  WifiRadioEnergyModel
 A WiFi radio energy model. More...
 
class  WifiRadioEnergyModelHelper
 Assign WifiRadioEnergyModel to wifi devices. More...
 
class  WifiRadioEnergyModelPhyListener
 A WifiPhy listener class for notifying the WifiRadioEnergyModel of Wifi radio state change. More...
 
struct  WifiRemoteStation
 hold per-remote-station state. More...
 
class  WifiRemoteStationInfo
 TID independent remote station statistics. More...
 
class  WifiRemoteStationManager
 hold a list of per-remote-station state. More...
 
struct  WifiRemoteStationState
 A struct that holds information about each remote station. More...
 
struct  WifiRraaThresholds
 WifiRraaThresholds structure. More...
 
struct  WifiRrpaaThresholds
 Robust Rate and Power Adaptation Algorithm. More...
 
struct  WifiRtsCtsProtection
 WifiRtsCtsProtection specifies that RTS/CTS protection method is used. More...
 
struct  WifiScanParams
 Structure holding scan parameters. More...
 
struct  WifiSpectrumBandInfo
 WifiSpectrumBandInfo structure containing info about a spectrum band. More...
 
class  WifiSpectrumModel5MhzInitializer
 Static class to initialize the values for the 2.4 GHz Wi-Fi spectrum model. More...
 
struct  WifiSpectrumModelId
 Wifi Spectrum Model structure. More...
 
class  WifiSpectrumPhyInterface
 This class is an adaptor between class SpectrumWifiPhy (which inherits from WifiPhy) and class SpectrumChannel (which expects objects derived from class SpectrumPhy to be connected to it). More...
 
struct  WifiSpectrumSignalParameters
 Signal parameters for wifi. More...
 
class  WifiSpectrumValueHelper
 This class defines all functions to create a spectrum model for Wi-Fi based on a a spectral model aligned with an OFDM subcarrier spacing of 312.5 KHz (model also reused for DSSS modulations) More...
 
class  WifiTxCurrentModel
 Model the transmit current as a function of the transmit power and mode. More...
 
class  WifiTxParameters
 This class stores the TX parameters (TX vector, protection mechanism, acknowledgment mechanism, TX duration, ...) for a frame of different types (MPDU, A-MPDU, multi-TID A-MPDU, MU PPDU, ...). More...
 
class  WifiTxTimer
 This class is used to handle the timer that a station starts when transmitting a frame that solicits a response. More...
 
class  WifiTxVector
 This class mimics the TXVECTOR which is to be passed to the PHY in order to define the parameters which are to be used for a transmission. More...
 
struct  WifiUlMuMultiStaBa
 WifiUlMuMultiStaBa specifies that a Basic Trigger Frame is being sent to solicit TB PPDUs that will be acknowledged through a multi-STA BlockAck frame. More...
 
class  WimaxChannel
 The channel object to attach Wimax NetDevices. More...
 
class  WimaxConnection
 Class to represent WiMAX connections. More...
 
class  WimaxHelper
 helps to manage and create WimaxNetDevice objects More...
 
class  WimaxMacQueue
 Class implementing the device packet queue. More...
 
class  WimaxMacToMacHeader
 this class implements the mac to mac header needed to dump a wimax pcap file The header format was reverse-engineered by looking at existing live pcap traces which could be opened with wireshark i.e., we have no idea where this is coming from. More...
 
class  WimaxNetDevice
 Hold together all WiMAX-related objects in a NetDevice. More...
 
class  WimaxPhy
 WiMAX PHY entity. More...
 
class  WindowedFilter
 Construct a windowed filter. More...
 
class  WmqIteratorTag
 Tag used to allow (only) WifiMacQueue to access the queue iterator stored by a WifiMpdu. More...
 
class  X2CellInfo
 X2CellInfo. More...
 
class  X2IfaceInfo
 X2IfaceInfo. More...
 
class  XmlConfigLoad
 A class to enable loading of configuration store from an XML file. More...
 
class  XmlConfigSave
 A class to enable saving of configuration store in an XML file. More...
 
class  YansErrorRateModel
 Model the error rate for different modulations. More...
 
class  YansWifiChannel
 a channel to interconnect ns3::YansWifiPhy objects. More...
 
class  YansWifiChannelHelper
 manage and create wifi channel objects for the YANS model. More...
 
class  YansWifiPhy
 802.11 PHY layer model More...
 
class  YansWifiPhyHelper
 Make it easy to create and manage PHY objects for the YANS model. More...
 
class  ZetaRandomVariable
 The zeta distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 
class  ZipfRandomVariable
 The Zipf distribution Random Number Generator (RNG) that allows stream numbers to be set deterministically. More...
 

Typedefs

using ampere_u = double
 ampere weak type
 
using AssocReqRefVariant
 variant holding a reference to a (Re)Association Request
 
using AssocRequestElems
 List of Information Elements included in Association Request frames.
 
using AssocResponseElems
 List of Information Elements included in Association Response frames.
 
typedef std::vector< BandInfoBands
 Container of BandInfo.
 
typedef std::vector< bool > Bvec
 boolean vector typedef
 
typedef std::vector< std::shared_ptr< CallbackComponentBase > > CallbackComponentVector
 Vector of callback components.
 
using ComplexMatrixArray = MatrixArray<std::complex<double>>
 Create an alias for MatrixArray using complex type.
 
typedef uint8_t CQI_value
 CQI value typedef.
 
typedef std::list< Ptr< DataCalculator > > DataCalculatorList
 List of Ptrs to DataCalculator objects.
 
using dB_u = double
 dB weak type
 
using dBm_per_Hz_u = double
 dBm/Hz weak type
 
using dBm_per_MHz_u = double
 dBm/MHz weak type
 
using dBm_u = double
 dBm weak type
 
using dBr_u = dB_u
 dBr weak type
 
using dBW_u = double
 dBW weak type
 
using degree_u = double
 degree weak type (angle)
 
typedef std::vector< std::vector< Ptr< PacketBurst > > > DlHarqProcessesBuffer_t
 DlHarqProcessesBuffer_t typedef.
 
using DlHarqProcessesDciBuffer_t = std::vector<DlDciListElement_s>
 DL HARQ process DCI buffer vector.
 
using DlHarqProcessesStatus_t = std::vector<uint8_t>
 DL HARQ process status vector.
 
using DlHarqProcessesTimer_t = std::vector<uint8_t>
 DL HARQ process timer vector.
 
using DlHarqRlcPduListBuffer_t = std::vector<RlcPduList_t>
 Vector of the 8 HARQ processes per UE.
 
typedef std::map< ImsiLcidPair_t, doubleDoubleMap
 Container: (IMSI, LCID) pair, double.
 
using DoubleMatrixArray = MatrixArray<double>
 Create an alias for MatrixArray using double type.
 
typedef void(* EcnStatesTracedValueCallback) (const TcpSocketState::EcnState_t oldValue, const TcpSocketState::EcnState_t newValue)
 TracedValue Callback signature for ECN state trace.
 
typedef std::map< TbId_t, tbInfo_texpectedTbs_t
 expectedTbs_t typedef
 
typedef uint32_t FlowId
 Abstract identifier of a packet flow.
 
typedef std::map< ImsiLcidPair_t, LteFlowId_tFlowIdMap
 Container: (IMSI, LCID) pair, LteFlowId_t.
 
typedef uint32_t FlowPacketId
 Abstract identifier of a packet within a flow.
 
typedef Callback< void > GenericPhyRxEndErrorCallback
 This method is used by the PHY to notify the MAC that a previously started RX attempt has terminated without success.
 
typedef Callback< void, Ptr< Packet > > GenericPhyRxEndOkCallback
 This method is used by the PHY to notify the MAC that a previously started RX attempt has been successfully completed.
 
typedef Callback< void > GenericPhyRxStartCallback
 This method is used by the PHY to notify the MAC that a RX attempt is being started, i.e., a valid signal has been recognized by the PHY.
 
typedef Callback< void, Ptr< const Packet > > GenericPhyTxEndCallback
 this method is invoked by the PHY to notify the MAC that the transmission of a given packet has been completed.
 
typedef Callback< bool, Ptr< Packet > > GenericPhyTxStartCallback
 This method allows the MAC to instruct the PHY to start a transmission of a given packet.
 
typedef std::vector< HarqProcessInfoElement_tHarqProcessInfoList_t
 HarqProcessInfoList_t typedef.
 
using HeRuBands = std::map<WifiSpectrumBandInfo, HeRu::RuSpec>
 Map a spectrum band associated with an RU to the RU specification.
 
typedef int HOL_group
 HOL group typedef.
 
using Hz_u = double
 Hz weak type.
 
typedef std::map< InterfacePairIpv4, Ptr< PcapFileWrapper > > InterfaceFileMapIpv4
 Ipv4/interface and Pcap file wrapper container.
 
typedef std::map< InterfacePairIpv6, Ptr< PcapFileWrapper > > InterfaceFileMapIpv6
 Ipv6/interface and Pcap file wrapper container.
 
typedef std::pair< Ptr< Ipv4 >, uint32_tInterfacePairIpv4
 Ipv4/interface pair.
 
typedef std::pair< uint32_t, uint32_tInterfacePairIpv6
 Ipv6/interface pair.
 
typedef std::map< InterfacePairIpv4, Ptr< OutputStreamWrapper > > InterfaceStreamMapIpv4
 Ipv4/interface and output stream container.
 
typedef std::map< InterfacePairIpv6, Ptr< OutputStreamWrapper > > InterfaceStreamMapIpv6
 Ipv6/interface and output stream container.
 
using IntMatrixArray = MatrixArray<int>
 Create an alias for MatrixArray using int type.
 
typedef NixVectorHelper< Ipv4RoutingHelperIpv4NixVectorHelper
 Create the typedef Ipv4NixVectorHelper with T as Ipv4RoutingHelper.
 
typedef NixVectorRouting< Ipv4RoutingProtocolIpv4NixVectorRouting
 Create the typedef Ipv4NixVectorRouting with T as Ipv4RoutingProtocol.
 
typedef NixVectorHelper< Ipv6RoutingHelperIpv6NixVectorHelper
 Create the typedef Ipv6NixVectorHelper with T as Ipv6RoutingHelper.
 
typedef NixVectorRouting< Ipv6RoutingProtocolIpv6NixVectorRouting
 Create the typedef Ipv6NixVectorRouting with T as Ipv6RoutingProtocol.
 
using joule_u = double
 joule weak type
 
typedef LollipopCounter< uint16_t > LollipopCounter16
 16 bit Lollipop Counter.
 
typedef LollipopCounter< uint8_t > LollipopCounter8
 8 bit Lollipop Counter.
 
typedef Callback< void, const SpectrumValue & > LteChunkProcessorCallback
 Chunk processor callback typedef.
 
typedef Callback< void, DlInfoListElement_sLtePhyDlHarqFeedbackCallback
 This method is used by the LteSpectrumPhy to notify the PHY about the status of a certain DL HARQ process.
 
typedef Callback< void > LtePhyRxCtrlEndErrorCallback
 This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX of a control frame attempt has terminated without success.
 
typedef Callback< void, std::list< Ptr< LteControlMessage > > > LtePhyRxCtrlEndOkCallback
 This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX of a control frame attempt has been successfully completed.
 
typedef Callback< void > LtePhyRxDataEndErrorCallback
 This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX attempt has terminated without success.
 
typedef Callback< void, Ptr< Packet > > LtePhyRxDataEndOkCallback
 This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX attempt has been successfully completed.
 
typedef Callback< void, uint16_t, Ptr< SpectrumValue > > LtePhyRxPssCallback
 This method is used by the LteSpectrumPhy to notify the UE PHY that a PSS has been received.
 
typedef Callback< void, UlInfoListElement_sLtePhyUlHarqFeedbackCallback
 This method is used by the LteSpectrumPhy to notify the PHY about the status of a certain UL HARQ process.
 
typedef std::vector< GroupInfoMcsGroupData
 Data structure for a table of groups.
 
typedef std::list< std::pair< std::string, std::string > > MetadataList
 List of pairs of strings representing metadata.
 
using meter_u = double
 meter weak type
 
using MHz_u = double
 MHz weak type.
 
typedef std::vector< MinstrelHtRateInfoMinstrelHtRate
 Data structure for a Minstrel Rate table.
 
typedef std::vector< McsGroupMinstrelMcsGroups
 Data structure for a table of group definitions.
 
typedef std::vector< RateInfoMinstrelRate
 Data structure for a Minstrel Rate table A vector of a struct RateInfo.
 
using mWatt_u = double
 mWatt weak type
 
typedef std::vector< uint32_tNixBits_t
 typedef for the nixVector
 
typedef void(* NodePrinter) (std::ostream &os)
 Function signature for prepending the node id to a log message.
 
typedef ObjectPtrContainerValue ObjectMapValue
 ObjectMapValue is an alias for ObjectPtrContainerValue.
 
typedef ObjectPtrContainerValue ObjectVectorValue
 ObjectVectorValue is an alias for ObjectPtrContainerValue.
 
typedef std::array< uint16_t, 16 > Priomap
 Priority map.
 
using ProbeRequestElems
 List of Information Elements included in Probe Request frames.
 
using ProbeResponseElems
 List of Information Elements included in Probe Response frames.
 
typedef int RBG_index
 RBG index typedef.
 
using RlcPduList_t = std::vector<std::vector<RlcPduListElement_s>>
 Vector of the LCs and layers per UE.
 
typedef std::vector< std::pair< WifiRraaThresholds, WifiMode > > RraaThresholdsTable
 List of thresholds for each mode.
 
typedef std::vector< std::vector< double > > RrpaaProbabilitiesTable
 List of probabilities.
 
typedef std::vector< std::pair< WifiRrpaaThresholds, WifiMode > > RrpaaThresholdsTable
 List of thresholds for each mode.
 
using RuAllocation = std::vector<uint8_t>
 8 bit RU_ALLOCATION per 20 MHz
 
typedef Callback< void, Ptr< const WifiPsdu > > RxErrorCallback
 Callback if PSDU unsuccessfuly received.
 
typedef Callback< void, Ptr< const WifiPsdu >, RxSignalInfo, WifiTxVector, std::vector< bool > > RxOkCallback
 Callback if PSDU successfully received (i.e.
 
using RxPowerWattPerChannelBand = std::map<WifiSpectrumBandInfo, Watt_u>
 A map of the received power for each band.
 
typedef std::map< SpectrumModelUid_t, RxSpectrumModelInfoRxSpectrumModelInfoMap_t
 Container: SpectrumModelUid_t, RxSpectrumModelInfo.
 
typedef std::vector< std::vector< uint8_t > > SampleRate
 Data structure for a Sample Rate table A vector of a vector uint8_t.
 
typedef RngSeedManager SeedManager
 Alias for compatibility.
 
typedef SequenceNumber< uint16_t, int16_t > SequenceNumber16
 16 bit Sequence number.
 
typedef SequenceNumber< uint32_t, int32_tSequenceNumber32
 32 bit Sequence number.
 
typedef SequenceNumber< uint8_t, int8_tSequenceNumber8
 8 bit Sequence number.
 
typedef std::vector< std::pair< dB_u, double > > SnrPerTable
 Table of SNR and PER pairs.
 
typedef std::map< SpectrumModelUid_t, SpectrumConverterSpectrumConverterMap_t
 Container: SpectrumModelUid_t, SpectrumConverter.
 
typedef uint32_t SpectrumModelUid_t
 Uid for SpectrumModels.
 
using StringVector = std::vector<std::string>
 Return type of SplitString.
 
typedef std::map< CQI_value, LteFlowId_t, bool(*)(uint8_t, uint8_t)>::iterator t_it_CQIToUE
 CQI value map iterator typedef.
 
typedef std::map< HOL_group, t_map_RBGToCQIsSorted >::iterator t_it_HOLGroupToRBGs
 HOL group map iterator typedef.
 
typedef std::map< HOL_group, std::set< LteFlowId_t > >::iterator t_it_HOLgroupToUEs
 HOL group multi map iterator typedef.
 
typedef std::map< RBG_index, t_map_CQIToUE >::iterator t_it_RBGToCQIsSorted
 RBG index map iterator typedef.
 
typedef std::map< CQI_value, LteFlowId_t, bool(*)(uint8_t, uint8_t)> t_map_CQIToUE
 CQI value map typedef.
 
typedef std::map< HOL_group, t_map_RBGToCQIsSortedt_map_HOLGroupToRBGs
 HOL group map typedef.
 
typedef std::multimap< HOL_group, std::set< LteFlowId_t >, bool(*)(int, int)> t_map_HOLgroupToUEs
 HOL group map typedef.
 
typedef std::map< RBG_index, t_map_CQIToUEt_map_RBGToCQIsSorted
 RBG index map typedef.
 
typedef void(* TcpCongStatesTracedValueCallback) (const TcpSocketState::TcpCongState_t oldValue, const TcpSocketState::TcpCongState_t newValue)
 TracedValue Callback signature for TcpCongState_t.
 
typedef void(* TcpStatesTracedValueCallback) (const TcpSocket::TcpStates_t oldValue, const TcpSocket::TcpStates_t newValue)
 TracedValue Callback signature for TcpStates_t.
 
typedef void(* TimePrinter) (std::ostream &os)
 Function signature for features requiring a time formatter, such as logging or ShowProgress.
 
typedef std::map< SpectrumModelUid_t, TxSpectrumModelInfoTxSpectrumModelInfoMap_t
 Container: SpectrumModelUid_t, TxSpectrumModelInfo.
 
typedef std::map< WifiMode, TimeTxTime
 Data structure to save transmission time calculations per rate.
 
typedef std::map< ImsiLcidPair_t, uint32_tUint32Map
 Container: (IMSI, LCID) pair, uint32_t.
 
typedef std::map< ImsiLcidPair_t, Ptr< MinMaxAvgTotalCalculator< uint32_t > > > Uint32StatsMap
 Container: (IMSI, LCID) pair, uint32_t calculator.
 
typedef std::map< ImsiLcidPair_t, uint64_t > Uint64Map
 Container: (IMSI, LCID) pair, uint64_t.
 
typedef std::map< ImsiLcidPair_t, Ptr< MinMaxAvgTotalCalculator< uint64_t > > > Uint64StatsMap
 Container: (IMSI, LCID) pair, uint64_t calculator.
 
using UlHarqProcessesDciBuffer_t = std::vector<UlDciListElement_s>
 UL HARQ process DCI buffer vector.
 
using UlHarqProcessesStatus_t = std::vector<uint8_t>
 UL HARQ process status vector.
 
typedef std::vector< doubleValues
 Container for element values.
 
using volt_u = double
 volt weak type
 
using Watt_u = double
 Watt weak type.
 
typedef std::pair< Mac48Address, uint8_t > WifiAddressTidPair
 (MAC address, TID) pair
 
typedef std::unordered_map< uint16_t, Ptr< const WifiPsdu > > WifiConstPsduMap
 Map of const PSDUs indexed by STA-ID.
 
using WifiContainerQueueId
 Tuple (queue type, receiver address type, Address, TID) identifying a container queue.
 
typedef uint8_t WifiInformationElementId
 This type is used to represent an Information Element ID.
 
typedef std::vector< WifiModeWifiModeList
 In various parts of the code, folk are interested in maintaining a list of transmission modes.
 
typedef WifiModeList::const_iterator WifiModeListIterator
 An iterator for WifiModeList vector.
 
typedef std::unordered_map< uint16_t, Ptr< WifiPsdu > > WifiPsduMap
 Map of PSDUs indexed by STA-ID.
 
using WifiSpectrumBandFrequencies = std::pair<Hz_u, Hz_u>
 typedef for a pair of start and stop frequencies to represent a band
 
using WifiSpectrumBandIndices = std::pair<uint32_t, uint32_t>
 typedef for a pair of start and stop sub-band indices
 
using WifiSpectrumBands = std::vector<WifiSpectrumBandInfo>
 vector of spectrum bands
 
using WifiTidLinkMapping = std::map<uint8_t, std::set<uint8_t>>
 TID-indexed map of the link set to which the TID is mapped.
 

Enumerations

enum  { COL_NODE = 0 , COL_LAST }
 
enum  { COL_TYPEID = 0 , COL_LASTID }
 
enum  { TYPE_MGT = 0 , TYPE_CTL = 1 , TYPE_DATA = 2 }
 type enumeration More...
 
enum  {
  SUBTYPE_CTL_TRIGGER = 2 , SUBTYPE_CTL_BEAMFORMINGRPOLL = 4 , SUBTYPE_CTL_NDPANNOUNCE = 5 , SUBTYPE_CTL_CTLFRAMEEXT = 6 ,
  SUBTYPE_CTL_CTLWRAPPER = 7 , SUBTYPE_CTL_BACKREQ = 8 , SUBTYPE_CTL_BACKRESP = 9 , SUBTYPE_CTL_PSPOLL = 10 ,
  SUBTYPE_CTL_RTS = 11 , SUBTYPE_CTL_CTS = 12 , SUBTYPE_CTL_ACK = 13 , SUBTYPE_CTL_END = 14 ,
  SUBTYPE_CTL_END_ACK = 15
}
 subtype enumeration More...
 
enum  AcIndex : uint8_t {
  AC_BE = 0 , AC_BK = 1 , AC_VI = 2 , AC_VO = 3 ,
  AC_BE_NQOS = 4 , AC_BEACON = 5 , AC_UNDEF
}
 This enumeration defines the Access Categories as an enumeration with values corresponding to the AC index (ACI) values specified (Table 8-104 "ACI-to-AC coding"; IEEE 802.11-2012). More...
 
enum  CeBitmap_e { TA , DRX , CR }
 CeBitmap_e. More...
 
enum  Center26ToneRuIndication : uint8_t {
  CENTER_26_TONE_RU_UNALLOCATED = 0 , CENTER_26_TONE_RU_LOW_80_MHZ_ALLOCATED , CENTER_26_TONE_RU_HIGH_80_MHZ_ALLOCATED , CENTER_26_TONE_RU_LOW_AND_HIGH_80_MHZ_ALLOCATED ,
  CENTER_26_TONE_RU_INDICATION_MAX
}
 Enum for the different values for CENTER_26_TONE_RU. More...
 
enum  CitySize { SmallCity , MediumCity , LargeCity }
 The size of the city in which propagation takes place. More...
 
enum  EnvironmentType { UrbanEnvironment , SubUrbanEnvironment , OpenAreasEnvironment }
 The type of propagation environment. More...
 
enum  ethernet_header_t { LENGTH , VLAN , QINQ }
 Types of ethernet packets. More...
 
enum class  FrequencyChannelType : uint8_t { FrequencyChannelType::DSSS = 0 , FrequencyChannelType::OFDM , FrequencyChannelType::CH_80211P }
 Enumeration of frequency channel types. More...
 
enum  HtProtectionType { NO_PROTECTION , NON_MEMBER_PROTECTION , TWENTY_MHZ_PROTECTION , MIXED_MODE_PROTECTION }
 HtProtectionType enumeration. More...
 
enum  LogLevel {
  LOG_NONE = 0x00000000 , LOG_ERROR = 0x00000001 , LOG_LEVEL_ERROR = 0x00000001 , LOG_WARN = 0x00000002 ,
  LOG_LEVEL_WARN = 0x00000003 , LOG_INFO = 0x00000004 , LOG_LEVEL_INFO = 0x00000007 , LOG_FUNCTION = 0x00000008 ,
  LOG_LEVEL_FUNCTION = 0x0000000f , LOG_LOGIC = 0x00000010 , LOG_LEVEL_LOGIC = 0x0000001f , LOG_DEBUG = 0x00000020 ,
  LOG_LEVEL_DEBUG = 0x0000003f , LOG_ALL = 0x0fffffff , LOG_LEVEL_ALL = LOG_ALL , LOG_PREFIX_FUNC = 0x80000000 ,
  LOG_PREFIX_TIME = 0x40000000 , LOG_PREFIX_NODE = 0x20000000 , LOG_PREFIX_LEVEL = 0x10000000 , LOG_PREFIX_ALL = 0xf0000000
}
 Logging severity classes and levels. More...
 
enum  McsGroupType { WIFI_MINSTREL_GROUP_HT = 0 , WIFI_MINSTREL_GROUP_VHT , WIFI_MINSTREL_GROUP_HE }
 Available MCS group types. More...
 
enum  MpduType {
  NORMAL_MPDU , SINGLE_MPDU , FIRST_MPDU_IN_AGGREGATE , MIDDLE_MPDU_IN_AGGREGATE ,
  LAST_MPDU_IN_AGGREGATE
}
 The type of an MPDU. More...
 
enum  NormalExtended_e { normal , extended }
 NormalExtended_e enumeration. More...
 
enum  OfdmPhyVariant { OFDM_PHY_DEFAULT , OFDM_PHY_10_MHZ , OFDM_PHY_5_MHZ }
 The OFDM (11a) PHY variants. More...
 
enum  PbbAddressLength { IPV4 = 3 , IPV6 = 15 }
 Used in Messages to determine whether it contains IPv4 or IPv6 addresses. More...
 
enum  QueueDiscSizePolicy { SINGLE_INTERNAL_QUEUE , SINGLE_CHILD_QUEUE_DISC , MULTIPLE_QUEUES , NO_LIMITS }
 Enumeration of the available policies to handle the queue disc size. More...
 
enum  QueueSizeUnit { PACKETS , BYTES }
 Enumeration of the operating modes of queues. More...
 
enum  ReqType { DATA , UNICAST_POLLING }
 Request type enumeration. More...
 
enum  Result_e { SUCCESS , FAILURE }
 Result_e enumeration. More...
 
enum  SetupRelease_e { setup , release }
 SetupRelease_e enumeration. More...
 
enum  Table3gppParams {
  uLgDS , sigLgDS , uLgASD , sigLgASD ,
  uLgASA , sigLgASA , uLgZSA , sigLgZSA ,
  uLgZSD , sigLgZSD , uK , sigK ,
  rTau , uXpr , sigXpr , numOfCluster ,
  raysPerCluster , cDS , cASD , cASA ,
  cZSA , perClusterShadowingStd
}
 The enumerator used for code clarity when performing parameter assignment in GetThreeGppTable. More...
 
enum class  TriggerFrameType : uint8_t {
  TriggerFrameType::BASIC_TRIGGER = 0 , TriggerFrameType::BFRP_TRIGGER = 1 , TriggerFrameType::MU_BAR_TRIGGER = 2 , TriggerFrameType::MU_RTS_TRIGGER = 3 ,
  TriggerFrameType::BSRP_TRIGGER = 4 , TriggerFrameType::GCR_MU_BAR_TRIGGER = 5 , TriggerFrameType::BQRP_TRIGGER = 6 , TriggerFrameType::NFRP_TRIGGER = 7
}
 The different Trigger frame types. More...
 
enum class  TriggerFrameVariant : uint8_t { TriggerFrameVariant::HE = 0 , TriggerFrameVariant::EHT }
 The different variants for Common Info field and User Info field of Trigger Frames. More...
 
enum  TypeOfStation {
  STA , AP , ADHOC_STA , MESH ,
  OCB
}
 Enumeration for type of WiFi station. More...
 
enum  WifiChannelListType : uint8_t { WIFI_CHANLIST_PRIMARY = 0 , WIFI_CHANLIST_SECONDARY , WIFI_CHANLIST_SECONDARY40 , WIFI_CHANLIST_SECONDARY80 }
 Enumeration of the possible channel-list parameter elements defined in Table 8-5 of IEEE 802.11-2016. More...
 
enum class  WifiChannelWidthType : uint8_t {
  WifiChannelWidthType::UNKNOWN = 0 , WifiChannelWidthType::CW_20MHZ , WifiChannelWidthType::CW_22MHZ , WifiChannelWidthType::CW_5MHZ ,
  WifiChannelWidthType::CW_10MHZ , WifiChannelWidthType::CW_40MHZ , WifiChannelWidthType::CW_80MHZ , WifiChannelWidthType::CW_160MHZ ,
  WifiChannelWidthType::CW_80_PLUS_80MHZ , WifiChannelWidthType::CW_2160MHZ , WifiChannelWidthType::MAX
}
 Enumeration of the possible channel widths. More...
 
enum  WifiCodeRate : uint16_t {
  WIFI_CODE_RATE_UNDEFINED , WIFI_CODE_RATE_1_2 , WIFI_CODE_RATE_2_3 , WIFI_CODE_RATE_3_4 ,
  WIFI_CODE_RATE_5_6 , WIFI_CODE_RATE_5_8 , WIFI_CODE_RATE_13_16 , WIFI_CODE_RATE_1_4 ,
  WIFI_CODE_RATE_13_28 , WIFI_CODE_RATE_13_21 , WIFI_CODE_RATE_52_63 , WIFI_CODE_RATE_13_14 ,
  WIFI_CODE_RATE_7_8
}
 These constants define the various convolutional coding rates used for the OFDM transmission modes in the IEEE 802.11 standard. More...
 
enum  WifiContainerQueueType { WIFI_CTL_QUEUE = 0 , WIFI_MGT_QUEUE = 1 , WIFI_QOSDATA_QUEUE = 2 , WIFI_DATA_QUEUE = 3 }
 enumeration of container queue types More...
 
enum class  WifiDirection : uint8_t { DOWNLINK = 0 , UPLINK = 1 , BOTH_DIRECTIONS = 2 }
 Wifi direction. More...
 
enum class  WifiIcfDrop : uint8_t {
  WifiIcfDrop::USING_OTHER_LINK = 0 , WifiIcfDrop::NOT_ENOUGH_TIME_TX , WifiIcfDrop::NOT_ENOUGH_TIME_RX , WifiIcfDrop::NOT_ENOUGH_TIME_SWITCH ,
  WifiIcfDrop::NOT_ENOUGH_TIME_SLEEP
}
 Reasons for an EMLSR client to drop an ICF. More...
 
enum  WifiMacDropReason : uint8_t { WIFI_MAC_DROP_FAILED_ENQUEUE = 0 , WIFI_MAC_DROP_EXPIRED_LIFETIME , WIFI_MAC_DROP_REACHED_RETRY_LIMIT , WIFI_MAC_DROP_QOS_OLD_PACKET }
 The reason why an MPDU was dropped. More...
 
enum  WifiMacType {
  WIFI_MAC_CTL_TRIGGER = 0 , WIFI_MAC_CTL_CTLWRAPPER , WIFI_MAC_CTL_PSPOLL , WIFI_MAC_CTL_RTS ,
  WIFI_MAC_CTL_CTS , WIFI_MAC_CTL_ACK , WIFI_MAC_CTL_BACKREQ , WIFI_MAC_CTL_BACKRESP ,
  WIFI_MAC_CTL_END , WIFI_MAC_CTL_END_ACK , WIFI_MAC_CTL_DMG_POLL , WIFI_MAC_CTL_DMG_SPR ,
  WIFI_MAC_CTL_DMG_GRANT , WIFI_MAC_CTL_DMG_CTS , WIFI_MAC_CTL_DMG_DTS , WIFI_MAC_CTL_DMG_SSW ,
  WIFI_MAC_CTL_DMG_SSW_FBCK , WIFI_MAC_CTL_DMG_SSW_ACK , WIFI_MAC_CTL_DMG_GRANT_ACK , WIFI_MAC_MGT_BEACON ,
  WIFI_MAC_MGT_ASSOCIATION_REQUEST , WIFI_MAC_MGT_ASSOCIATION_RESPONSE , WIFI_MAC_MGT_DISASSOCIATION , WIFI_MAC_MGT_REASSOCIATION_REQUEST ,
  WIFI_MAC_MGT_REASSOCIATION_RESPONSE , WIFI_MAC_MGT_PROBE_REQUEST , WIFI_MAC_MGT_PROBE_RESPONSE , WIFI_MAC_MGT_AUTHENTICATION ,
  WIFI_MAC_MGT_DEAUTHENTICATION , WIFI_MAC_MGT_ACTION , WIFI_MAC_MGT_ACTION_NO_ACK , WIFI_MAC_MGT_MULTIHOP_ACTION ,
  WIFI_MAC_DATA , WIFI_MAC_DATA_CFACK , WIFI_MAC_DATA_CFPOLL , WIFI_MAC_DATA_CFACK_CFPOLL ,
  WIFI_MAC_DATA_NULL , WIFI_MAC_DATA_NULL_CFACK , WIFI_MAC_DATA_NULL_CFPOLL , WIFI_MAC_DATA_NULL_CFACK_CFPOLL ,
  WIFI_MAC_QOSDATA , WIFI_MAC_QOSDATA_CFACK , WIFI_MAC_QOSDATA_CFPOLL , WIFI_MAC_QOSDATA_CFACK_CFPOLL ,
  WIFI_MAC_QOSDATA_NULL , WIFI_MAC_QOSDATA_NULL_CFPOLL , WIFI_MAC_QOSDATA_NULL_CFACK_CFPOLL , WIFI_MAC_EXTENSION_DMG_BEACON
}
 Combination of valid MAC header type/subtype. More...
 
enum  WifiModulationClass {
  WIFI_MOD_CLASS_UNKNOWN = 0 , WIFI_MOD_CLASS_DSSS , WIFI_MOD_CLASS_HR_DSSS , WIFI_MOD_CLASS_ERP_OFDM ,
  WIFI_MOD_CLASS_OFDM , WIFI_MOD_CLASS_HT , WIFI_MOD_CLASS_VHT , WIFI_MOD_CLASS_DMG_CTRL ,
  WIFI_MOD_CLASS_DMG_OFDM , WIFI_MOD_CLASS_DMG_SC , WIFI_MOD_CLASS_DMG_LP_SC , WIFI_MOD_CLASS_HE ,
  WIFI_MOD_CLASS_EHT
}
 This enumeration defines the modulation classes per (Table 10-6 "Modulation classes"; IEEE 802.11-2016, with updated in 802.11ax/D6.0 as Table 10-9). More...
 
enum  WifiPhyBand {
  WIFI_PHY_BAND_2_4GHZ , WIFI_PHY_BAND_5GHZ , WIFI_PHY_BAND_6GHZ , WIFI_PHY_BAND_60GHZ ,
  WIFI_PHY_BAND_UNSPECIFIED
}
 Identifies the PHY band. More...
 
enum  WifiPhyRxfailureReason {
  UNKNOWN = 0 , UNSUPPORTED_SETTINGS , CHANNEL_SWITCHING , RXING ,
  TXING , SLEEPING , POWERED_OFF , TRUNCATED_TX ,
  BUSY_DECODING_PREAMBLE , PREAMBLE_DETECT_FAILURE , RECEPTION_ABORTED_BY_TX , L_SIG_FAILURE ,
  HT_SIG_FAILURE , SIG_A_FAILURE , SIG_B_FAILURE , U_SIG_FAILURE ,
  EHT_SIG_FAILURE , PREAMBLE_DETECTION_PACKET_SWITCH , FRAME_CAPTURE_PACKET_SWITCH , OBSS_PD_CCA_RESET ,
  PPDU_TOO_LATE , FILTERED , DMG_HEADER_FAILURE , DMG_ALLOCATION_ENDED ,
  SIGNAL_DETECTION_ABORTED_BY_TX
}
 Enumeration of the possible reception failure reasons. More...
 
enum class  WifiPhyState {
  IDLE = 0 , CCA_BUSY , TX , RX ,
  SWITCHING , SLEEP , OFF
}
 The state of the PHY layer. More...
 
enum  WifiPowerManagementMode : uint8_t { WIFI_PM_ACTIVE = 0 , WIFI_PM_SWITCHING_TO_PS , WIFI_PM_POWERSAVE , WIFI_PM_SWITCHING_TO_ACTIVE }
 Enumeration for power management modes. More...
 
enum  WifiPpduField {
  WIFI_PPDU_FIELD_PREAMBLE = 0 , WIFI_PPDU_FIELD_NON_HT_HEADER , WIFI_PPDU_FIELD_HT_SIG , WIFI_PPDU_FIELD_TRAINING ,
  WIFI_PPDU_FIELD_SIG_A , WIFI_PPDU_FIELD_SIG_B , WIFI_PPDU_FIELD_U_SIG , WIFI_PPDU_FIELD_EHT_SIG ,
  WIFI_PPDU_FIELD_DATA
}
 The type of PPDU field (grouped for convenience) More...
 
enum  WifiPpduType { WIFI_PPDU_TYPE_SU = 0 , WIFI_PPDU_TYPE_DL_MU , WIFI_PPDU_TYPE_UL_MU }
 The type of PPDU (SU, DL MU, or UL MU) More...
 
enum  WifiPreamble {
  WIFI_PREAMBLE_LONG , WIFI_PREAMBLE_SHORT , WIFI_PREAMBLE_HT_MF , WIFI_PREAMBLE_VHT_SU ,
  WIFI_PREAMBLE_VHT_MU , WIFI_PREAMBLE_DMG_CTRL , WIFI_PREAMBLE_DMG_SC , WIFI_PREAMBLE_DMG_OFDM ,
  WIFI_PREAMBLE_HE_SU , WIFI_PREAMBLE_HE_ER_SU , WIFI_PREAMBLE_HE_MU , WIFI_PREAMBLE_HE_TB ,
  WIFI_PREAMBLE_EHT_MU , WIFI_PREAMBLE_EHT_TB
}
 The type of preamble to be used by an IEEE 802.11 transmission. More...
 
enum class  WifiQueueBlockedReason : uint8_t {
  WifiQueueBlockedReason::WAITING_ADDBA_RESP = 0 , WifiQueueBlockedReason::POWER_SAVE_MODE , WifiQueueBlockedReason::USING_OTHER_EMLSR_LINK , WifiQueueBlockedReason::WAITING_EMLSR_TRANSITION_DELAY ,
  WifiQueueBlockedReason::TID_NOT_MAPPED , WifiQueueBlockedReason::REASONS_COUNT
}
 Enumeration of the reasons to block container queues. More...
 
enum  WifiReceiverAddressType : uint8_t { WIFI_UNICAST = 0 , WIFI_BROADCAST }
 enumeration of frame directions More...
 
enum class  WifiScanType : uint8_t { WifiScanType::ACTIVE = 0 , WifiScanType::PASSIVE }
 Scan type (active or passive) More...
 
enum  WifiStandard {
  WIFI_STANDARD_UNSPECIFIED , WIFI_STANDARD_80211a , WIFI_STANDARD_80211b , WIFI_STANDARD_80211g ,
  WIFI_STANDARD_80211p , WIFI_STANDARD_80211n , WIFI_STANDARD_80211ac , WIFI_STANDARD_80211ad ,
  WIFI_STANDARD_80211ax , WIFI_STANDARD_80211be , WIFI_STANDARD_COUNT
}
 Identifies the IEEE 802.11 specifications that a Wifi device can be configured to use. More...
 
enum class  WifiTidToLinkMappingNegSupport : uint8_t { NOT_SUPPORTED = 0 , SAME_LINK_SET = 1 , ANY_LINK_SET = 3 }
 TID-to-Link Mapping Negotiation Support. More...
 
enum  WireState { IDLE , TRANSMITTING , PROPAGATING }
 Current state of the channel. More...
 

Functions

int64x64_t Abs (const int64x64_t &value)
 Absolute value.
 
Time Abs (const Time &time)
 Absolute value for Time.
 
static void AddPIHeader (uint8_t *&buf, size_t &len)
 Synthesize PI header for the kernel.
 
void AddWifiMacTrailer (Ptr< Packet > packet)
 Add FCS trailer to a packet.
 
static void AsciiLrWpanMacTransmitSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > p)
 Output an ascii line representing the Transmit event (with context)
 
static void AsciiLrWpanMacTransmitSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > p)
 Output an ascii line representing the Transmit event (without context)
 
static void AsciiPhyReceiveSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > p, double snr, WifiMode mode, WifiPreamble preamble)
 ASCII trace PHY receive sink with context.
 
static void AsciiPhyReceiveSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > p, double snr, WifiMode mode, WifiPreamble preamble)
 ASCII trace PHY receive sink without context.
 
static void AsciiPhyRxOkEvent (std::ostream *os, std::string context, Ptr< const Packet > packet, double snr, UanTxMode mode)
 Ascii trace callback on successful packet reception.
 
static void AsciiPhyTransmitSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > p, WifiMode mode, WifiPreamble preamble, uint8_t txLevel)
 ASCII trace PHY transmit sink with context.
 
static void AsciiPhyTransmitSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > p, WifiMode mode, WifiPreamble preamble, uint8_t txLevel)
 ASCII trace PHY transmit sink without context.
 
static void AsciiPhyTxEvent (std::ostream *os, std::string context, Ptr< const Packet > packet, double txPowerDb, UanTxMode mode)
 Ascii trace callback on Phy transmit events.
 
void BreakpointFallback ()
 fallback breakpoint function
 
std::string BufferToString (uint8_t *buffer, uint32_t len)
 Convert a byte buffer to a string containing a hex representation of the buffer.
 
double CalculateDistance (const Vector2D &a, const Vector2D &b)
 
double CalculateDistance (const Vector3D &a, const Vector3D &b)
 
double CalculateDistanceSquared (const Vector2D &a, const Vector2D &b)
 
double CalculateDistanceSquared (const Vector3D &a, const Vector3D &b)
 
void cell_data_function_col_0 (GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer user_data)
 This function includes the name of the object, pointer, vector or vector item in the first column.
 
void cell_data_function_col_0_config_default (GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer user_data)
 This function writes the attribute or typeid name in the column 0.
 
void cell_data_function_col_1 (GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer user_data)
 This function includes the name of the attribute or the editable value in the second column.
 
void cell_data_function_col_1_config_default (GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer user_data)
 This function writes data in the second column, this data is going to be editable if it is a NODE_ATTRIBUTE.
 
void cell_edited_callback (GtkCellRendererText *cell, gchar *path_string, gchar *new_text, gpointer user_data)
 This is the callback called when the value of an attribute is changed.
 
void cell_edited_callback_config_default (GtkCellRendererText *cell, gchar *path_string, gchar *new_text, gpointer user_data)
 This functions is called whenever there is a change in the value of an attribute If the input value is ok, it will be updated in the default value and in the GUI, otherwise, it won't be updated in both.
 
gboolean cell_tooltip_callback (GtkWidget *widget, gint x, gint y, gboolean keyboard_tip, GtkTooltip *tooltip, gpointer user_data)
 This function displays the tooltip for an object, pointer, vector item or an attribute.
 
gboolean cell_tooltip_callback_config_default (GtkWidget *widget, gint x, gint y, gboolean keyboard_tip, GtkTooltip *tooltip, gpointer user_data)
 This function is used to display a tooltip whenever the user puts the mouse over a type ID or an attribute.
 
static void CheckEnvironmentVariables ()
 Parse the NS_LOG environment variable.
 
gboolean clean_model_callback (GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data)
 Delete the tree model contents.
 
gboolean clean_model_callback_config_default (GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data)
 Delete the tree model contents.
 
static int64_t CoDelGetTime ()
 Returns the current time translated in CoDel time representation.
 
static uint32_t CoDelGetTime ()
 Returns the current time translated in CoDel time representation.
 
template<typename T >
Ptr< T > CompleteConstruct (T *object)
 
static bool ComponentExists (std::string componentName)
 Check if a log component exists.
 
template<typename T1 , typename T2 >
Ptr< T1 > const_pointer_cast (const Ptr< T2 > &p)
 Return a copy of p with its stored pointer const casted from T2 to T1.
 
template<typename T >
Ptr< T > CopyObject (Ptr< const T > object)
 
bool CqaGroupDescComparator (int key1, int key2)
 CGA group comparator function.
 
bool CqaKeyDescComparator (uint16_t key1, uint16_t key2)
 CQA key comparator.
 
bool CQIValueDescComparator (uint8_t key1, uint8_t key2)
 CQI value comparator function.
 
uint32_t CRC32Calculate (const uint8_t *data, int length)
 Calculates the CRC-32 for a given input.
 
uint8_t CRC8Calculate (const uint8_t *data, int length)
 
template<typename T , typename... Ts>
Ptr< T > Create (Ts &&... args)
 Create class instances by constructors with varying numbers of arguments and return them by Ptr.
 
GtkWidget * create_view (GtkTreeStore *model)
 This is the main view opening the widget, getting tooltips and drawing the tree of attributes...
 
GtkWidget * create_view_config_default (GtkTreeStore *model)
 This is the main view opening the widget, getting tooltips and drawing the tree of attributes.
 
template<typename T , typename... Args>
Ptr< T > CreateObjectWithAttributes (Args... args)
 Allocate an Object on the heap and initialize with a set of attributes.
 
Watt_u DbmToW (dBm_u val)
 Convert from dBm to Watts.
 
double DbToRatio (dB_u val)
 Convert from dB to ratio.
 
void DefaultNodePrinter (std::ostream &os)
 Default node id printer implementation.
 
void DefaultTimePrinter (std::ostream &os)
 Default Time printer.
 
std::vector< doubleDegreesToRadians (const std::vector< double > &degrees)
 converts degrees to radians
 
double DegreesToRadians (double degrees)
 converts degrees to radians
 
gboolean delete_event_callback (GtkWidget *widget, GdkEvent *event, gpointer user_data)
 Exit the application.
 
std::string Demangle (const std::string &mangled)
 
int64_t Div (const Length &numerator, const Length &denominator, Length *remainder=nullptr)
 Calculate how many times numerator can be split into denominator sized pieces.
 
int64_t Div (const Time &lhs, const Time &rhs)
 Integer quotient from dividing two Times.
 
void DlRxPduCallback (Ptr< BoundCallbackArgument > arg, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize, uint64_t delay)
 Callback function for DL RX statistics for both RLC and PDCP.
 
void DlTxPduCallback (Ptr< BoundCallbackArgument > arg, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize)
 Callback function for DL TX statistics for both RLC and PDCP.
 
template<typename T >
std::string DoGetTemplateClassName ()
 Helper function to get the name (as a string) of the type of a template class.
 
template<typename V , typename T , typename U >
Ptr< const AttributeAccessorDoMakeAccessorHelperOne (U T::*memberVariable)
 MakeAccessorHelper implementation for a class data member.
 
template<typename V , typename T , typename U >
Ptr< const AttributeAccessorDoMakeAccessorHelperOne (U(T::*getter)() const)
 MakeAccessorHelper implementation for a class get functor method.
 
template<typename V , typename T , typename U >
Ptr< const AttributeAccessorDoMakeAccessorHelperOne (void(T::*setter)(U))
 MakeAccessorHelper implementation for a class set method returning void.
 
template<typename W , typename T , typename U , typename V >
Ptr< const AttributeAccessorDoMakeAccessorHelperTwo (bool(T::*setter)(U), V(T::*getter)() const)
 MakeAccessorHelper implementation with a class get functor method and a class set method returning bool .
 
template<typename W , typename T , typename U , typename V >
Ptr< const AttributeAccessorDoMakeAccessorHelperTwo (V(T::*getter)() const, bool(T::*setter)(U))
 MakeAccessorHelper implementation with a class get functor method and a class set method returning bool .
 
template<typename W , typename T , typename U , typename V >
Ptr< const AttributeAccessorDoMakeAccessorHelperTwo (V(T::*getter)() const, void(T::*setter)(U))
 MakeAccessorHelper implementation with a class get functor method and a class set method returning void .
 
template<typename W , typename T , typename U , typename V >
Ptr< const AttributeAccessorDoMakeAccessorHelperTwo (void(T::*setter)(U), V(T::*getter)() const)
 MakeAccessorHelper implementation with a class get functor method and a class set method returning void .
 
template<typename T , typename SOURCE >
Ptr< const TraceSourceAccessorDoMakeTraceSourceAccessor (SOURCE T::*a)
 MakeTraceSourceAccessor() implementation.
 
static double DoRound (double v)
 Utility function that rounds |1e-4| < input value < |1e-3| up to +/- 1e-3 and value <= |1e-4| to zero.
 
void exit_clicked_callback (GtkButton *button, gpointer user_data)
 Exit the window when exit button is pressed.
 
std::optional< Length::UnitFromString (std::string unitString)
 Find the equivalent Length::Unit for a unit string.
 
static uint64_t GenerateId ()
 Generate an ID.
 
int get_col_number_from_tree_view_column (GtkTreeViewColumn *col)
 This function gets the column number 0 or 1 from the mouse click.
 
uint32_t GetAckSize ()
 Return the total Ack size (including FCS trailer).
 
uint32_t GetBlockAckRequestSize (BlockAckReqType type)
 Return the total BlockAckRequest size (including FCS trailer).
 
uint32_t GetBlockAckSize (BlockAckType type)
 Return the total BlockAck size (including FCS trailer).
 
MHz_u GetChannelWidthInMhz (WifiChannelWidthType width)
 Get the total channel width for the channel width type.
 
uint32_t GetCtsSize ()
 Return the total CTS size (including FCS trailer).
 
MHz_u GetDefaultChannelWidth (WifiStandard standard, WifiPhyBand band)
 Get the default channel width for the given PHY standard and band.
 
WifiPhyBand GetDefaultPhyBand (WifiStandard standard)
 Get the default PHY band for the given standard.
 
const std::array< uint64_t, 4 > & GetDsssRatesBpsList ()
 Get the array of possible DSSS rates.
 
const std::array< uint64_t, 8 > & GetErpOfdmRatesBpsList ()
 Get the array of possible ERP OFDM rates.
 
std::string GetFrameExchangeManagerTypeIdName (WifiStandard standard, bool qosSupported)
 Get the TypeId name for the FrameExchangeManager corresponding to the given standard.
 
FrequencyChannelType GetFrequencyChannelType (WifiStandard standard)
 Get the type of the frequency channel for the given standard.
 
Time GetGuardIntervalForMode (WifiMode mode, bool htShortGuardInterval, Time heGuardInterval)
 Get the guard interval for a given WifiMode.
 
Time GetGuardIntervalForMode (WifiMode mode, const Ptr< WifiNetDevice > device)
 Get the guard interval for a given WifiMode.
 
static SimulatorImplGetImpl ()
 Get the SimulatorImpl singleton.
 
LogComponentGetLogComponent (const std::string name)
 Get the LogComponent registered with the given name.
 
MHz_u GetMaximumChannelWidth (WifiModulationClass modulation)
 Get the maximum channel width allowed for the given modulation class.
 
uint32_t GetMaxNss (const std::vector< uint8_t > &vec, uint8_t mcsStart, uint8_t mcsEnd)
 Get the max Tx/Rx NSS for input MCS index range.
 
WifiModulationClass GetModulationClassForPreamble (WifiPreamble preamble)
 Return the modulation class corresponding to the given preamble type.
 
WifiModulationClass GetModulationClassForStandard (WifiStandard standard)
 Return the modulation class corresponding to a given standard.
 
uint32_t GetMuBarSize (std::list< BlockAckReqType > types)
 Return the total MU-BAR size (including FCS trailer).
 
static std::string GetNodeIdFromToken (std::string str)
 Gets nodeId number in string format from the string like $node_(4)
 
static int GetNodeIdInt (ParseResult pr)
 Get node id number in int format.
 
static std::string GetNodeIdString (ParseResult pr)
 Get node id number in string format.
 
const std::map< MHz_u, std::array< uint64_t, 8 > > & GetOfdmRatesBpsList ()
 Get the array of possible OFDM rates for each bandwidth.
 
template<typename U >
U * GetPointer (const Ptr< U > &p)
 
Time GetPpduMaxTime (WifiPreamble preamble)
 Get the maximum PPDU duration (see Section 10.14 of 802.11-2016) for the PHY layers defining the aPPDUMaxTime characteristic (HT, VHT and HE).
 
WifiPreamble GetPreambleForTransmission (WifiModulationClass modulation, bool useShortPreamble)
 Return the preamble to be used for the transmission.
 
uint32_t GetRtsSize ()
 Return the total RTS size (including FCS trailer).
 
uint32_t GetSize (Ptr< const Packet > packet, const WifiMacHeader *hdr, bool isAmpdu)
 Return the total size of the packet after WifiMacHeader and FCS trailer have been added.
 
HasherGetStaticHash ()
 Get a reference to the static global hasher at g_hasher.
 
template<typename T >
std::string GetTemplateClassName ()
 Helper function to get the name (as a string) of the type of a template class.
 
uint8_t GetTid (Ptr< const Packet > packet, const WifiMacHeader hdr)
 This function is useful to get traffic id of different packet types.
 
std::string GetWildcardMatches (const std::string &configPath, const std::string &matchedPath, const std::string &wildcardSeparator=" ")
 Returns the text matches from the matched path for each of the wildcards in the Config path, separated by the wild card separator.
 
uint32_t Hash32 (const char *buffer, const std::size_t size)
 Compute 32-bit hash of a byte buffer, using the default hash function.
 
uint32_t Hash32 (const std::string s)
 Compute 32-bit hash of a string, using the default hash function.
 
uint64_t Hash64 (const char *buffer, const std::size_t size)
 Compute 64-bit hash of a byte buffer, using the default hash function.
 
uint64_t Hash64 (const std::string s)
 Compute 64-bit hash of a string, using the default hash function.
 
static bool HasNodeIdNumber (std::string str)
 Checks if the value between brackets is a correct nodeId number.
 
double Integral (const SpectrumValue &arg)
 
static void Ipv4L3ProtocolDropSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, const Ipv4Header &header, Ptr< const Packet > packet, Ipv4L3Protocol::DropReason reason, Ptr< Ipv4 > ipv4, uint32_t interface)
 Packet dropped callback with context.
 
static void Ipv4L3ProtocolDropSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, const Ipv4Header &header, Ptr< const Packet > packet, Ipv4L3Protocol::DropReason reason, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 dropped packet - Ascii output.
 
static void Ipv4L3ProtocolDropSinkWithoutContext (Ptr< OutputStreamWrapper > stream, const Ipv4Header &header, Ptr< const Packet > packet, Ipv4L3Protocol::DropReason reason, Ptr< Ipv4 > ipv4, uint32_t interface)
 Packet dropped callback without context.
 
static void Ipv4L3ProtocolDropSinkWithoutContext (Ptr< OutputStreamWrapper > stream, const Ipv4Header &header, Ptr< const Packet > packet, Ipv4L3Protocol::DropReason reason, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 dropped packet - Ascii output.
 
static void Ipv4L3ProtocolRxSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > packet, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 received packet - Ascii output.
 
static void Ipv4L3ProtocolRxSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > packet, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 received packet - Ascii output.
 
static void Ipv4L3ProtocolRxTxSink (Ptr< const Packet > p, Ptr< Ipv4 > ipv4, uint32_t interface)
 IPv4 Rx / Tx packet callback.
 
static void Ipv4L3ProtocolRxTxSink (Ptr< const Packet > p, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 packet - Pcap output.
 
static void Ipv4L3ProtocolTxSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > packet, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 transmitted packet - Ascii output.
 
static void Ipv4L3ProtocolTxSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > packet, Ptr< Ipv4 > ipv4, uint32_t interface)
 Sync function for IPv4 transmitted packet - Ascii output.
 
static void Ipv6L3ProtocolDropSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, const Ipv6Header &header, Ptr< const Packet > packet, Ipv6L3Protocol::DropReason reason, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 dropped packet - Ascii output.
 
static void Ipv6L3ProtocolDropSinkWithoutContext (Ptr< OutputStreamWrapper > stream, const Ipv6Header &header, Ptr< const Packet > packet, Ipv6L3Protocol::DropReason reason, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 dropped packet - Ascii output.
 
static void Ipv6L3ProtocolRxSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > packet, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 received packet - Ascii output.
 
static void Ipv6L3ProtocolRxSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > packet, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 received packet - Ascii output.
 
static void Ipv6L3ProtocolRxTxSink (Ptr< const Packet > p, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 packet - Pcap output.
 
static void Ipv6L3ProtocolTxSinkWithContext (Ptr< OutputStreamWrapper > stream, std::string context, Ptr< const Packet > packet, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 transmitted packet - Ascii output.
 
static void Ipv6L3ProtocolTxSinkWithoutContext (Ptr< OutputStreamWrapper > stream, Ptr< const Packet > packet, Ptr< Ipv6 > ipv6, uint32_t interface)
 Sync function for IPv6 transmitted packet - Ascii output.
 
bool IsAllowedControlAnswerModulationClass (WifiModulationClass modClassReq, WifiModulationClass modClassAnswer)
 Return whether the modulation class of the selected mode for the control answer frame is allowed.
 
bool IsDlMu (WifiPreamble preamble)
 Return true if a preamble corresponds to a downlink multi-user transmission.
 
bool IsEht (WifiPreamble preamble)
 Return true if a preamble corresponds to an EHT transmission.
 
bool IsInWindow (uint16_t seq, uint16_t winstart, uint16_t winsize)
 
bool IsMu (WifiPreamble preamble)
 Return true if a preamble corresponds to a multi-user transmission.
 
bool isNaN (double x)
 true if x is NaN
 
static bool IsNumber (const std::string &s)
 Checks if a string represents a number or it has others characters than digits and point.
 
static bool IsSchedMobilityPos (ParseResult pr)
 Check if this corresponds to a line like this: $ns_ at 1 "$node_(0) set X_ 2".
 
static bool IsSchedSetPos (ParseResult pr)
 Check if this corresponds to a line like this: $ns_ at 1 "$node_(0) setdest 2 3 4".
 
static bool IsSetInitialPos (ParseResult pr)
 Check if this corresponds to a line like this: $node_(0) set X_ 123.
 
bool IsTrigger (const WifiConstPsduMap &psduMap)
 
bool IsTrigger (const WifiPsduMap &psduMap)
 
bool IsUlMu (WifiPreamble preamble)
 Return true if a preamble corresponds to a uplink multi-user transmission.
 
template<class T >
static bool IsVal (const std::string &str, T &ret)
 Check if s string represents a numeric value.
 
template<class T >
bool IsVal (const std::string &str, T &ret)
 Check if s string represents a numeric value.
 
void load_clicked_attribute (GtkButton *button, gpointer user_data)
 If the user presses the button load, it will load the config file into memory for the Attributes.
 
void load_clicked_default (GtkButton *button, gpointer user_data)
 If the user presses the button load, it will load the config file into memory for the Default attributes.
 
SpectrumValue Log (const SpectrumValue &arg)
 
SpectrumValue Log10 (const SpectrumValue &arg)
 
SpectrumValue Log2 (const SpectrumValue &arg)
 
void LogComponentDisable (const std::string &name, LogLevel level)
 Disable the logging output associated with that log component.
 
void LogComponentDisableAll (LogLevel level)
 Disable all logging for all components.
 
void LogComponentEnable (const std::string &name, LogLevel level)
 Enable the logging output associated with that log component.
 
void LogComponentEnableAll (LogLevel level)
 Enable the logging output for all registered log components.
 
void LogComponentPrintList ()
 Print the list of logging messages available.
 
NodePrinter LogGetNodePrinter ()
 Get the LogNodePrinter function currently in use.
 
TimePrinter LogGetTimePrinter ()
 Get the LogTimePrinter function currently in use.
 
void LogSetNodePrinter (NodePrinter np)
 Set the LogNodePrinter function to be used to prepend log messages with the node id.
 
void LogSetTimePrinter (TimePrinter lp)
 Set the TimePrinter function to be used to prepend log messages with the simulation time.
 
static uint32_t lookuphash (unsigned char *k, uint32_t length, uint32_t level)
 Get a hash key.
 
void LteSimpleHelperDlRxPduCallback (Ptr< RadioBearerStatsCalculator > rlcStats, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize, uint64_t delay)
 DL receive PDU callback.
 
void LteSimpleHelperDlTxPduCallback (Ptr< RadioBearerStatsCalculator > rlcStats, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize)
 DL transmit PDU callback.
 
void LteSimpleHelperUlRxPduCallback (Ptr< RadioBearerStatsCalculator > rlcStats, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize, uint64_t delay)
 UL receive PDU callback.
 
void LteSimpleHelperUlTxPduCallback (Ptr< RadioBearerStatsCalculator > rlcStats, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize)
 UL transmit PDU callback.
 
template<typename V , typename T1 >
Ptr< const AttributeAccessorMakeAccessorHelper (T1 a1)
 Create an AttributeAccessor for a class data member, or a lone class get functor or set method.
 
template<typename V , typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeAccessorHelper (T1 a1, T2 a2)
 Create an AttributeAccessor using a pair of get functor and set methods from a class.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeAddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeAddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeAddressChecker ()
 
template<typename A , char Sep = ',', template< typename... > class C = std::list, typename T1 >
Ptr< const AttributeAccessorMakeAttributeContainerAccessor (T1 a1)
 Make AttributeContainerAccessor using explicit types.
 
template<typename A , char Sep = ',', template< typename... > class C = std::list, typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeAttributeContainerAccessor (T1 a1, T2 a2)
 Make AttributeContainerAccessor using explicit types.
 
template<class A , char Sep = ',', template< class... > class C = std::list>
Ptr< AttributeCheckerMakeAttributeContainerChecker ()
 Make uninitialized AttributeContainerChecker using explicit types.
 
template<class A , char Sep, template< class... > class C>
Ptr< AttributeCheckerMakeAttributeContainerChecker (const AttributeContainerValue< A, Sep, C > &value)
 Make AttributeContainerChecker from AttributeContainerValue.
 
template<class A , char Sep = ',', template< class... > class C = std::list>
Ptr< const AttributeCheckerMakeAttributeContainerChecker (Ptr< const AttributeChecker > itemchecker)
 Make AttributeContainerChecker using explicit types, initialize item checker.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeBooleanAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeBooleanAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeBooleanChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeBoxAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeBoxAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeBoxChecker ()
 
template<typename R , typename... Args>
Callback< R, Args... > MakeCallback (R(*fnPtr)(Args...))
 
template Callback< ObjectBase * > MakeCallback< ObjectBase * > (ObjectBase *(*)())
 Explicit instantiation for ObjectBase.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeCallbackAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeCallbackAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeCallbackChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeDataRateAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeDataRateAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeDataRateChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeDoubleAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeDoubleAccessor (T1 a1, T2 a2)
 
template<typename T >
Ptr< const AttributeCheckerMakeDoubleChecker ()
 
template<typename T >
Ptr< const AttributeCheckerMakeDoubleChecker (double min)
 Make a checker with a minimum value.
 
template<typename T >
Ptr< const AttributeCheckerMakeDoubleChecker (double min, double max)
 Make a checker with a minimum and a maximum value.
 
static Ptr< const AttributeAccessorMakeEmptyAttributeAccessor ()
 Create an empty AttributeAccessor.
 
static Ptr< AttributeCheckerMakeEmptyAttributeChecker ()
 Create an empty AttributeChecker.
 
static Ptr< const TraceSourceAccessorMakeEmptyTraceSourceAccessor ()
 Create an empty TraceSourceAccessor.
 
template<typename T , typename T1 >
Ptr< const AttributeAccessorMakeEnumAccessor (T1 a1)
 
template<typename T , typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeEnumAccessor (T1 a1, T2 a2)
 
template<typename T >
Ptr< const AttributeCheckerMakeEnumChecker (Ptr< EnumChecker< T > > checker)
 Terminate the recursion of variadic arguments.
 
template<typename T , typename... Ts>
Ptr< const AttributeCheckerMakeEnumChecker (Ptr< EnumChecker< T > > checker, T v, std::string n, Ts... args)
 Handler for enum value, name pairs other than the default.
 
template<typename T , typename... Ts>
Ptr< const AttributeCheckerMakeEnumChecker (T v, std::string n, Ts... args)
 Make an EnumChecker pre-configured with a set of allowed values by name.
 
template<typename MEM , typename OBJ , typename... Ts>
std::enable_if_t< std::is_member_pointer_v< MEM >, EventImpl * > MakeEvent (MEM mem_ptr, OBJ obj, Ts... args)
 Make an EventImpl from class method members which take varying numbers of arguments.
 
template<typename T >
EventImplMakeEvent (T function)
 Make an EventImpl from a lambda.
 
template<typename... Us, typename... Ts>
EventImplMakeEvent (void(*f)(Us...), Ts... args)
 Make an EventImpl from a function pointer taking varying numbers of arguments.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeIntegerAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeIntegerAccessor (T1 a1, T2 a2)
 
template<typename T >
Ptr< const AttributeCheckerMakeIntegerChecker ()
 
template<typename T >
Ptr< const AttributeCheckerMakeIntegerChecker (int64_t min)
 Make a checker with a minimum value.
 
template<typename T >
Ptr< const AttributeCheckerMakeIntegerChecker (int64_t min, int64_t max)
 Make a checker with a minimum and a maximum value.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeIpv4AddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeIpv4AddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeIpv4AddressChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeIpv4MaskAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeIpv4MaskAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeIpv4MaskChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeIpv6AddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeIpv6AddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeIpv6AddressChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeIpv6PrefixAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeIpv6PrefixAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeIpv6PrefixChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeLengthAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeLengthAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeLengthChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeMac16AddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeMac16AddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeMac16AddressChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeMac48AddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeMac48AddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeMac48AddressChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeMac64AddressAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeMac64AddressAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeMac64AddressChecker ()
 
template<typename R , typename... Args>
Callback< R, Args... > MakeNullCallback ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeObjectFactoryAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeObjectFactoryAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeObjectFactoryChecker ()
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectMapAccessor (INDEX(T::*getN)() const, Ptr< U >(T::*get)(INDEX) const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectMapAccessor (Ptr< U >(T::*get)(INDEX) const, INDEX(T::*getN)() const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T , typename U >
Ptr< const AttributeAccessorMakeObjectMapAccessor (U T::*memberVariable)
 MakeAccessorHelper implementation for ObjectVector.
 
template<typename T >
Ptr< const AttributeCheckerMakeObjectMapChecker ()
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectPtrContainerAccessor (INDEX(T::*getN)() const, Ptr< U >(T::*get)(INDEX) const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectPtrContainerAccessor (Ptr< U >(T::*get)(INDEX) const, INDEX(T::*getN)() const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T >
Ptr< const AttributeCheckerMakeObjectPtrContainerChecker ()
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectVectorAccessor (INDEX(T::*getN)() const, Ptr< U >(T::*get)(INDEX) const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessorMakeObjectVectorAccessor (Ptr< U >(T::*get)(INDEX) const, INDEX(T::*getN)() const)
 Create an AttributeAccessor using a container class indexed get method.
 
template<typename T , typename U >
Ptr< const AttributeAccessorMakeObjectVectorAccessor (U T::*memberVariable)
 MakeAccessorHelper implementation for ObjectVector.
 
template<typename T >
Ptr< const AttributeCheckerMakeObjectVectorChecker ()
 
template<typename A , typename B , typename T1 >
Ptr< const AttributeAccessorMakePairAccessor (T1 a1)
 Create an AttributeAccessor for std::pair<>.
 
template<class A , class B >
Ptr< AttributeCheckerMakePairChecker ()
 Make a PairChecker without abscissa and ordinate AttributeCheckers.
 
template<class A , class B >
Ptr< AttributeCheckerMakePairChecker (const PairValue< A, B > &value)
 Make a PairChecker from a PairValue.
 
template<class A , class B >
Ptr< const AttributeCheckerMakePairChecker (Ptr< const AttributeChecker > firstchecker, Ptr< const AttributeChecker > secondchecker)
 Make a PairChecker from abscissa and ordinate AttributeCheckers.
 
template<typename T1 >
Ptr< const AttributeAccessorMakePointerAccessor (T1 a1)
 Create an AttributeAccessor for a class data member, or a lone class get functor or set method.
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakePointerAccessor (T1 a1, T2 a2)
 Create an AttributeAccessor using a pair of get functor and set methods from a class.
 
template<typename T >
Ptr< AttributeCheckerMakePointerChecker ()
 Create a PointerChecker for a type.
 
template<typename T1 >
Ptr< const AttributeAccessorMakePriomapAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakePriomapAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakePriomapChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeQueueSizeAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeQueueSizeAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeQueueSizeChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeRectangleAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeRectangleAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeRectangleChecker ()
 
template<typename T , typename BASE >
Ptr< AttributeCheckerMakeSimpleAttributeChecker (std::string name, std::string underlying)
 A simple string-based attribute checker.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeSsidAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeSsidAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeSsidChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeStringAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeStringAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeStringChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeTimeAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeTimeAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeTimeChecker ()
 Helper to make an unbounded Time checker.
 
Ptr< const AttributeCheckerMakeTimeChecker (const Time min)
 Helper to make a Time checker with a lower bound.
 
Ptr< const AttributeCheckerMakeTimeChecker (const Time min, const Time max)
 Helper to make a Time checker with bounded range.
 
template<typename T >
Ptr< const TraceSourceAccessorMakeTraceSourceAccessor (T a)
 Create a TraceSourceAccessor which will control access to the underlying trace source.
 
template<class... Args, class T1 >
Ptr< const AttributeAccessorMakeTupleAccessor (T1 a1)
 Create an AttributeAccessor for a class data member of type tuple, or a lone class get functor or set method.
 
template<class... Args, class T1 , class T2 >
Ptr< const AttributeAccessorMakeTupleAccessor (T1 a1, T2 a2)
 Create an AttributeAccessor using a pair of get functor and set methods from a class.
 
template<class... Args, class... Ts>
Ptr< const AttributeCheckerMakeTupleChecker (Ts... checkers)
 Create a TupleChecker from AttributeCheckers associated with TupleValue elements.
 
template<class T1 , class T2 >
auto MakeTupleValue (T2 t)
 Create a TupleValue object.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeTypeIdAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeTypeIdAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeTypeIdChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeUanModesListAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeUanModesListAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeUanModesListChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeUintegerAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeUintegerAccessor (T1 a1, T2 a2)
 
template<typename T >
Ptr< const AttributeCheckerMakeUintegerChecker ()
 
template<typename T >
Ptr< const AttributeCheckerMakeUintegerChecker (uint64_t min)
 Make a checker with a minimum value.
 
template<typename T >
Ptr< const AttributeCheckerMakeUintegerChecker (uint64_t min, uint64_t max)
 Make a checker with a minimum and a maximum value.
 
template<typename T1 >
Ptr< const AttributeAccessorMakeValueClassTestAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeValueClassTestAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeValueClassTestChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeVector2DAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeVector2DAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeVector2DChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeVector3DAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeVector3DAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeVector3DChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeVectorAccessor (T1 a1)
 Create an AttributeAccessor for a class data member, or a lone class get functor or set method.
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeVectorAccessor (T1 a1, T2 a2)
 Create an AttributeAccessor using a pair of get functor and set methods from a class.
 
Ptr< const AttributeCheckerMakeVectorChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeWaypointAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeWaypointAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeWaypointChecker ()
 
template<typename T1 >
Ptr< const AttributeAccessorMakeWifiModeAccessor (T1 a1)
 
template<typename T1 , typename T2 >
Ptr< const AttributeAccessorMakeWifiModeAccessor (T1 a1, T2 a2)
 
Ptr< const AttributeCheckerMakeWifiModeChecker ()
 
int64x64_t Max (const int64x64_t &a, const int64x64_t &b)
 Maximum.
 
Time Max (const Time &timeA, const Time &timeB)
 Maximum of two Times.
 
int64x64_t Min (const int64x64_t &a, const int64x64_t &b)
 Minimum.
 
Time Min (const Time &timeA, const Time &timeB)
 Minimum of two Times.
 
void mixHashKey (uint32_t &a, uint32_t &b, uint32_t &c)
 Mix hash keys in-place for lookuphash.
 
Length Mod (const Length &numerator, const Length &denominator)
 Calculate the amount remaining after dividing two lengths.
 
double Norm (const SpectrumValue &x)
 
Time Now ()
 create an ns3::Time instance which contains the current simulation time.
 
const uint16_t NUM_DOWNLINK_CONFS (sizeof(g_ffrEnhancedDownlinkDefaultConfiguration)/sizeof(FfrEnhancedDownlinkDefaultConfiguration))
 
const uint16_t NUM_DOWNLINK_CONFS (sizeof(g_ffrSoftDownlinkDefaultConfiguration)/sizeof(FfrSoftDownlinkDefaultConfiguration))
 
const uint16_t NUM_DOWNLINK_CONFS (sizeof(g_frHardDownlinkDefaultConfiguration)/sizeof(FrHardDownlinkDefaultConfiguration))
 
const uint16_t NUM_DOWNLINK_CONFS (sizeof(g_frSoftDownlinkDefaultConfiguration)/sizeof(FrSoftDownlinkDefaultConfiguration))
 
const uint16_t NUM_DOWNLINK_CONFS (sizeof(g_frStrictDownlinkDefaultConfiguration)/sizeof(FrStrictDownlinkDefaultConfiguration))
 
const uint16_t NUM_UPLINK_CONFS (sizeof(g_ffrEnhancedUplinkDefaultConfiguration)/sizeof(FfrEnhancedUplinkDefaultConfiguration))
 
const uint16_t NUM_UPLINK_CONFS (sizeof(g_ffrSoftUplinkDefaultConfiguration)/sizeof(FfrSoftUplinkDefaultConfiguration))
 
const uint16_t NUM_UPLINK_CONFS (sizeof(g_frHardUplinkDefaultConfiguration)/sizeof(FrHardUplinkDefaultConfiguration))
 
const uint16_t NUM_UPLINK_CONFS (sizeof(g_frSoftUplinkDefaultConfiguration)/sizeof(FrSoftUplinkDefaultConfiguration))
 
const uint16_t NUM_UPLINK_CONFS (sizeof(g_frStrictUplinkDefaultConfiguration)/sizeof(FrStrictUplinkDefaultConfiguration))
 
template<typename T >
TracedValue< T > operator! (const TracedValue< T > &lhs)
 Unary arithmetic operator for TracedValue.
 
template<typename R , typename... Args>
bool operator!= (Callback< R, Args... > a, Callback< R, Args... > b)
 Inequality test.
 
bool operator!= (const Address &a, const Address &b)
 
bool operator!= (const Cid &lhs, const Cid &rhs)
 inequality operator
 
bool operator!= (const EventId &a, const EventId &b)
 
bool operator!= (const FrequencyRange &lhs, const FrequencyRange &rhs)
 Compare two FrequencyRange values.
 
bool operator!= (const int64x64_t &lhs, const int64x64_t &rhs)
 Inequality operator.
 
bool operator!= (const Ipv4Address &a, const Ipv4Address &b)
 
bool operator!= (const Ipv4InterfaceAddress &a, const Ipv4InterfaceAddress &b)
 
bool operator!= (const Ipv4Mask &a, const Ipv4Mask &b)
 
bool operator!= (const Ipv6Address &a, const Ipv6Address &b)
 
bool operator!= (const Ipv6InterfaceAddress &a, const Ipv6InterfaceAddress &b)
 
bool operator!= (const Ipv6Prefix &a, const Ipv6Prefix &b)
 
bool operator!= (const Length &left, const Length &right)
 Compare two length objects for inequality.
 
bool operator!= (const Mac16Address &a, const Mac16Address &b)
 
bool operator!= (const Mac48Address &a, const Mac48Address &b)
 
bool operator!= (const Mac64Address &a, const Mac64Address &b)
 
bool operator!= (const Mac8Address &a, const Mac8Address &b)
 Address comparison, unequal.
 
template<typename T1 , typename T2 >
std::enable_if_t< std::is_same_v< T2, std::nullptr_t >, bool > operator!= (const Ptr< T1 > &lhs, T2 rhs)
 Specialization for comparison to nullptr.
 
bool operator!= (const Scheduler::Event &a, const Scheduler::Event &b)
 Compare (not equal) two events by Event.
 
bool operator!= (const Scheduler::EventKey &a, const Scheduler::EventKey &b)
 Compare (not equal) two events by EventKey.
 
bool operator!= (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
bool operator!= (const Time &lhs, const Time &rhs)
 Inequality operator for Time.
 
template<typename T , typename U >
bool operator!= (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator!= (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator!= (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator!= (const ValueClassTest &a, const ValueClassTest &b)
 Operator not equal.
 
bool operator!= (const Vector2D &a, const Vector2D &b)
 
bool operator!= (const Vector3D &a, const Vector3D &b)
 
bool operator!= (const WifiMode &a, const WifiMode &b)
 Check if the two WifiModes are different.
 
bool operator!= (const WifiPhyTraceStatistics &lhs, const WifiPhyTraceStatistics &rhs)
 Checks if two WifiPhyTraceStatistics objects are not equal.
 
bool operator!= (const WifiPpduRxRecord &lhs, const WifiPpduRxRecord &rhs)
 Checks if two WifiPpduRxRecord objects are not equal.
 
template<typename T , typename U >
auto operator% (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() % rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator% (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() % rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator% (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs % rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
TracedValue< T > & operator%= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
template<typename T , typename U >
auto operator& (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() &rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator& (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() &rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator& (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs &rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
TracedValue< T > & operator&= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
double operator* (const DataRate &lhs, const Time &rhs)
 Multiply datarate by a time value.
 
int64x64_t operator* (const int64x64_t &lhs, const int64x64_t &rhs)
 Multiplication operator.
 
Time operator* (const int64x64_t &lhs, const Time &rhs)
 Scale a Time by a numeric value.
 
Length operator* (const Length &l, double scalar)
 Multiply a length value by a scalar.
 
SpectrumValue operator* (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
SpectrumValue operator* (const SpectrumValue &lhs, double rhs)
 
double operator* (const Time &lhs, const DataRate &rhs)
 Multiply time value by a data rate.
 
Time operator* (const Time &lhs, const int64x64_t &rhs)
 Scale a Time by a numeric value.
 
template<class T >
std::enable_if_t< std::is_integral_v< T >, Timeoperator* (const Time &lhs, T rhs)
 Scale a Time by an integer value.
 
template<class T >
std::enable_if_t< std::is_floating_point_v< T >, Timeoperator* (const Time &lhs, T rhs)
 
template<typename T , typename U >
auto operator* (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() *rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator* (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() *rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator* (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs+rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
double operator* (const Vector2D &a, const Vector2D &b)
 
Vector2D operator* (const Vector2D &a, double b)
 
double operator* (const Vector3D &a, const Vector3D &b)
 
Vector3D operator* (const Vector3D &a, double b)
 
Vector2D operator* (double a, const Vector2D &b)
 
Vector3D operator* (double a, const Vector3D &b)
 
SpectrumValue operator* (double lhs, const SpectrumValue &rhs)
 
Length operator* (double scalar, const Length &l)
 Multiply a length value by a scalar.
 
template<class T >
std::enable_if_t< std::is_arithmetic_v< T >, Timeoperator* (T lhs, const Time &rhs)
 Scale a Time by a numeric value.
 
template<typename T , typename U >
TracedValue< T > & operator*= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
int64x64_t operator+ (const int64x64_t &lhs, const int64x64_t &rhs)
 Addition operator.
 
Length operator+ (const Length &left, const Length &right)
 Add two length values together.
 
template<typename Item >
QueueSize operator+ (const Ptr< Item > &lhs, const QueueSize &rhs)
 Increase the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.
 
template<typename Item >
QueueSize operator+ (const QueueSize &lhs, const Ptr< Item > &rhs)
 Increase the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.
 
SpectrumValue operator+ (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
SpectrumValue operator+ (const SpectrumValue &lhs, double rhs)
 
SpectrumValue operator+ (const SpectrumValue &rhs)
 
Time operator+ (const Time &lhs, const Time &rhs)
 Addition operator for Time.
 
template<typename T >
TracedValue< T > operator+ (const TracedValue< T > &lhs)
 Unary arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator+ (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get()+rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator+ (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get()+rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator+ (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs+rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
Vector2D operator+ (const Vector2D &a, const Vector2D &b)
 
Vector3D operator+ (const Vector3D &a, const Vector3D &b)
 
WifiPhyTraceStatistics operator+ (const WifiPhyTraceStatistics &lhs, const WifiPhyTraceStatistics &rhs)
 Adds two WifiPhyTraceStatistics objects.
 
SpectrumValue operator+ (double lhs, const SpectrumValue &rhs)
 
Timeoperator+= (Time &lhs, const Time &rhs)
 Compound addition assignment for Time.
 
template<typename T , typename U >
TracedValue< T > & operator+= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
int64x64_t operator- (const int64x64_t &lhs, const int64x64_t &rhs)
 Subtraction operator.
 
Length operator- (const Length &left, const Length &right)
 Subtract two length values.
 
template<typename Item >
QueueSize operator- (const Ptr< Item > &lhs, const QueueSize &rhs)
 Decrease the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.
 
template<typename Item >
QueueSize operator- (const QueueSize &lhs, const Ptr< Item > &rhs)
 Decrease the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.
 
SpectrumValue operator- (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
SpectrumValue operator- (const SpectrumValue &lhs, double rhs)
 
SpectrumValue operator- (const SpectrumValue &rhs)
 
Time operator- (const Time &lhs, const Time &rhs)
 Subtraction operator for Time.
 
template<typename T >
TracedValue< T > operator- (const TracedValue< T > &lhs)
 Unary arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator- (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() - rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator- (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() - rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator- (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs - rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
Vector2D operator- (const Vector2D &a, const Vector2D &b)
 
Vector3D operator- (const Vector3D &a, const Vector3D &b)
 
SpectrumValue operator- (double lhs, const SpectrumValue &rhs)
 
Timeoperator-= (Time &lhs, const Time &rhs)
 Compound subtraction assignment for Time.
 
template<typename T , typename U >
TracedValue< T > & operator-= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
int64x64_t operator/ (const int64x64_t &lhs, const int64x64_t &rhs)
 Division operator.
 
Length operator/ (const Length &left, double scalar)
 Divide a length value by a scalar.
 
double operator/ (const Length &numerator, const Length &denominator)
 Divide a length value by another length value.
 
SpectrumValue operator/ (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
SpectrumValue operator/ (const SpectrumValue &lhs, double rhs)
 
Time operator/ (const Time &lhs, const int64x64_t &rhs)
 Scale a Time by a numeric value.
 
int64x64_t operator/ (const Time &lhs, const Time &rhs)
 Exact division, returning a dimensionless fixed point number.
 
template<class T >
std::enable_if_t< std::is_integral_v< T >, Timeoperator/ (const Time &lhs, T rhs)
 Divide a Time by an integer value.
 
template<class T >
std::enable_if_t< std::is_floating_point_v< T >, Timeoperator/ (const Time &lhs, T rhs)
 
template<typename T , typename U >
auto operator/ (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get()/rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator/ (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get()/rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator/ (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs/rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
SpectrumValue operator/ (double lhs, const SpectrumValue &rhs)
 
template<typename T , typename U >
TracedValue< T > & operator/= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
bool operator< (AcIndex left, AcIndex right)
 Operator< overload returning true if the AC on the left has lower priority than the AC on the right.
 
bool operator< (const Address &a, const Address &b)
 
bool operator< (const EpcEnbApplication::EpsFlowId_t &a, const EpcEnbApplication::EpsFlowId_t &b)
 
bool operator< (const EventId &a, const EventId &b)
 
bool operator< (const FcfsPrio &lhs, const FcfsPrio &rhs)
 
bool operator< (const FrequencyRange &lhs, const FrequencyRange &rhs)
 Compare two FrequencyRange values.
 
bool operator< (const ImsiLcidPair_t &a, const ImsiLcidPair_t &b)
 Less than operator.
 
bool operator< (const Ipv4Address &a, const Ipv4Address &b)
 
bool operator< (const Ipv4FlowClassifier::FiveTuple &t1, const Ipv4FlowClassifier::FiveTuple &t2)
 Less than operator.
 
bool operator< (const Ipv6Address &a, const Ipv6Address &b)
 
bool operator< (const Ipv6FlowClassifier::FiveTuple &t1, const Ipv6FlowClassifier::FiveTuple &t2)
 Less than operator.
 
bool operator< (const Length &left, const Length &right)
 Check if left has a value less than right.
 
bool operator< (const LteFlowId_t &a, const LteFlowId_t &b)
 Less than operator.
 
bool operator< (const LteSpectrumModelId &a, const LteSpectrumModelId &b)
 Constructor.
 
bool operator< (const LteUeConfig_t &a, const LteUeConfig_t &b)
 Less than operator.
 
bool operator< (const Mac16Address &a, const Mac16Address &b)
 
bool operator< (const Mac48Address &a, const Mac48Address &b)
 
bool operator< (const Mac64Address &a, const Mac64Address &b)
 
bool operator< (const Mac8Address &a, const Mac8Address &b)
 Address comparison, less than.
 
bool operator< (const RadioBearerStatsConnector::CellIdRnti &a, const RadioBearerStatsConnector::CellIdRnti &b)
 Less than operator for CellIdRnti, because it is used as key in map.
 
bool operator< (const Scheduler::Event &a, const Scheduler::Event &b)
 Compare (less than) two events by Event.
 
bool operator< (const Scheduler::EventKey &a, const Scheduler::EventKey &b)
 Compare (less than) two events by EventKey.
 
bool operator< (const TbId_t &a, const TbId_t &b)
 Less than operator.
 
bool operator< (const Time &lhs, const Time &rhs)
 Less than operator for Time.
 
bool operator< (const Time &time, const EventId &event)
 Compare a Time to an EventId.
 
template<typename T , typename U >
bool operator< (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator< (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
bool operator< (const TvSpectrumModelId &a, const TvSpectrumModelId &b)
 Minus-than operator.
 
template<typename T , typename U >
bool operator< (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator< (const Vector2D &a, const Vector2D &b)
 
bool operator< (const Vector3D &a, const Vector3D &b)
 
bool operator< (const WifiMode &a, const WifiMode &b)
 Compare two WifiModes.
 
bool operator< (const WifiPpduRxRecord &lhs, const WifiPpduRxRecord &rhs)
 Determines if one WifiPpduRxRecord object is less than another.
 
bool operator< (const WifiSpectrumBandInfo &lhs, const WifiSpectrumBandInfo &rhs)
 Compare two bands.
 
bool operator< (const WifiSpectrumModelId &lhs, const WifiSpectrumModelId &rhs)
 Less than operator.
 
template<typename T , typename U >
auto operator<< (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get()<< rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator<< (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get()<< rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator<< (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs<< rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
std::ostream & operator<< (std::ostream &lhs, TxSpectrumModelInfoMap_t &rhs)
 Output stream operator.
 
std::ostream & operator<< (std::ostream &os, AlohaNoackNetDevice::State state)
 Output stream operator.
 
std::ostream & operator<< (std::ostream &os, ChannelCondition::LosConditionValue cond)
 
std::ostream & operator<< (std::ostream &os, ConfigStore::FileFormat &format)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, ConfigStore::Mode &mode)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const AcIndex &acIndex)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Address &address)
 
std::ostream & operator<< (std::ostream &os, const Angles &a)
 
template<typename T >
std::ostream & operator<< (std::ostream &os, const Average< T > &x)
 Print avg (err) [min, max].
 
std::ostream & operator<< (std::ostream &os, const BlockAckReqType &type)
 Serialize BlockAckReqType to ostream in a human-readable form.
 
std::ostream & operator<< (std::ostream &os, const BlockAckType &type)
 Serialize BlockAckType to ostream in a human-readable form.
 
std::ostream & operator<< (std::ostream &os, const BooleanValue &value)
 Output streamer.
 
std::ostream & operator<< (std::ostream &os, const Box &box)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const CandidateQueue &q)
 
std::ostream & operator<< (std::ostream &os, const Cid &cid)
 output stream output operator
 
std::ostream & operator<< (std::ostream &os, const CommandLine &cmd)
 Overloaded operator << to print program usage (shortcut for CommandLine::PrintHelper)
 
std::ostream & operator<< (std::ostream &os, const DataRate &rate)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const EpcTft::Direction &d)
 Output stream operator for EPC TFT direction.
 
std::ostream & operator<< (std::ostream &os, const EpcTft::PacketFilter &f)
 Output stream for EPC TFT packet filter.
 
std::ostream & operator<< (std::ostream &os, const ErpInformation &erpInformation)
 output stream output operator
 
std::ostream & operator<< (std::ostream &os, const Event &event)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const FilsDiscHeader::FdCapability &capability)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const FilsDiscHeader::FilsDiscFrameControl &control)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const FrequencyChannelInfo &info)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const FrequencyRange &freqRange)
 Serialize FrequencyRange values to ostream (human-readable).
 
std::ostream & operator<< (std::ostream &os, const Header &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const HePpdu::TxPsdFlag &flag)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const HeRu::RuSpec &ru)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const HeRu::RuType &ruType)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Indent &val)
 Output streamer for Indent.
 
std::ostream & operator<< (std::ostream &os, const int64x64_t &value)
 Output streamer for int64x64_t.
 
std::ostream & operator<< (std::ostream &os, const Ipv4Address &address)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv4InterfaceAddress &addr)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv4Mask &mask)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv4MulticastRoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv4Route &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv4RoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6Address &address)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6InterfaceAddress &addr)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6MulticastRoute &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6MulticastRoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6Prefix &prefix)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6Route &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Ipv6RoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Mac16Address &address)
 
std::ostream & operator<< (std::ostream &os, const Mac48Address &address)
 
std::ostream & operator<< (std::ostream &os, const Mac64Address &address)
 
std::ostream & operator<< (std::ostream &os, const Mac8Address &address)
 Write address to stream os as 8 bit integer.
 
std::ostream & operator<< (std::ostream &os, const NdiscCache::Entry &entry)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const NixVector &nix)
 
std::ostream & operator<< (std::ostream &os, const ObjectFactory &factory)
 
std::ostream & operator<< (std::ostream &os, const Packet &packet)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const PhyEntity::PhyFieldRxStatus &status)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const PhyEntity::PhyRxFailureAction &action)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Priomap &priomap)
 Serialize the priomap to the given ostream.
 
std::ostream & operator<< (std::ostream &os, const Ptr< const WifiPpdu > &ppdu)
 Stream insertion operator.
 
template<typename T >
std::ostream & operator<< (std::ostream &os, const Ptr< T > &p)
 Output streamer.
 
std::ostream & operator<< (std::ostream &os, const QueueDisc::Stats &stats)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const QueueItem &item)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const QueueSize &size)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Rectangle &rectangle)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const Rectangle::Side &side)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipHeader &h)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipNgHeader &h)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipNgRoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipNgRte &h)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipRoutingTableEntry &route)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const RipRte &h)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SequenceNumber10 &val)
 Ostream output function.
 
template<typename NUMERIC_TYPE , typename SIGNED_TYPE >
std::ostream & operator<< (std::ostream &os, const SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE > &val)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanBc0 &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanFrag1 &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanFragN &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanHc1 &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanIphc &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanIpv6 &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanMesh &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanNhcExtension &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SixLowPanUdpNhcExtension &header)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SpectrumValue &pvf)
 Output stream operator.
 
std::ostream & operator<< (std::ostream &os, const SPFVertex::ListOfSPFVertex_t &vs)
 
std::ostream & operator<< (std::ostream &os, const SPFVertex::NodeExit_t &exit)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const SPFVertex::VertexType &t)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const StatusCode &code)
 Serialize StatusCode to the given ostream.
 
std::ostream & operator<< (std::ostream &os, const StaWifiMac::ApInfo &apInfo)
 Stream insertion operator.
 
template<class A , class B >
std::ostream & operator<< (std::ostream &os, const std::pair< A, B > &p)
 Output streamer for a std::pair.
 
template<class... Args>
std::ostream & operator<< (std::ostream &os, const std::tuple< Args... > &t)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const TcpHeader &tc)
 
std::ostream & operator<< (std::ostream &os, const TcpOptionSack &sackOption)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TcpOptionSack::SackBlock &sackBlock)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TcpRateOps::TcpRateConnection &rate)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TcpRateOps::TcpRateSample &sample)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TcpTxBuffer &tcpTxBuf)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TcpTxItem &item)
 Output operator.
 
std::ostream & operator<< (std::ostream &os, const TestCaseFailure &failure)
 Output streamer for TestCaseFailure.
 
std::ostream & operator<< (std::ostream &os, const Time &time)
 Time output streamer.
 
std::ostream & operator<< (std::ostream &os, const TimeWithUnit &timeU)
 
template<typename T >
std::ostream & operator<< (std::ostream &os, const TracedValue< T > &rhs)
 Output streamer for TracedValue.
 
std::ostream & operator<< (std::ostream &os, const Trailer &trailer)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const UanModesList &ml)
 Write UanModesList to stream os.
 
std::ostream & operator<< (std::ostream &os, const UanPdp &pdp)
 Writes PDP to stream as list of arrivals.
 
std::ostream & operator<< (std::ostream &os, const UanTxMode &mode)
 Writes tx mode entry to stream os.
 
template<class T >
std::ostream & operator<< (std::ostream &os, const ValArray< T > &a)
 Overloads output stream operator.
 
std::ostream & operator<< (std::ostream &os, const Vector2D &vector)
 
std::ostream & operator<< (std::ostream &os, const Vector3D &vector)
 
std::ostream & operator<< (std::ostream &os, const Waypoint &waypoint)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiAcknowledgment *acknowledgment)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiCodeRate &codeRate)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiConstPsduMap &psdus)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiDirection &direction)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiInformationElement &element)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiMode &mode)
 Serialize WifiMode to ostream (human-readable).
 
std::ostream & operator<< (std::ostream &os, const WifiModulationClass &modulation)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiMpdu &item)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPhyOperatingChannel &channel)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPhyRxfailureReason &reason)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPpduField &field)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPpduType &type)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPreamble &preamble)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiProtection *protection)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiPsdu &psdu)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiSpectrumBandInfo &band)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiTxParameters *txParams)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, const WifiTxVector &v)
 Serialize WifiTxVector to the given ostream.
 
std::ostream & operator<< (std::ostream &os, GlobalRoutingLSA &lsa)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, HalfDuplexIdealPhy::State s)
 Output stream operator.
 
std::ostream & operator<< (std::ostream &os, LteSpectrumPhy::State s)
 Output stream output operator.
 
std::ostream & operator<< (std::ostream &os, McsGroupType type)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, RxSignalInfo rxSignalInfo)
 
std::ostream & operator<< (std::ostream &os, TestCase::Duration duration)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, TestSuite::Type type)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, TypeId tid)
 Insertion operator for TypeId.
 
std::ostream & operator<< (std::ostream &os, ValueClassTest v)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiChannelListType type)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiChannelWidthType width)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiIcfDrop reason)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiPhyBand band)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiPhyState state)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiQueueBlockedReason reason)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiStandard standard)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &os, WifiTidToLinkMappingNegSupport negsupport)
 Stream insertion operator.
 
std::ostream & operator<< (std::ostream &out, ns3::RemoteChannelBundle &bundle)
 
std::ostream & operator<< (std::ostream &stream, const Length &l)
 Write a length value to an output stream.
 
std::ostream & operator<< (std::ostream &stream, const Length::Quantity &q)
 Write a Quantity to an output stream.
 
std::ostream & operator<< (std::ostream &stream, Length::Unit unit)
 Write a Length::Unit to an output stream.
 
template<typename T , typename U >
TracedValue< T > & operator<<= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
bool operator<= (AcIndex left, AcIndex right)
 Operator<= overload returning true if the AC on the left has lower or the same priority than the AC on the right.
 
bool operator<= (const int64x64_t &lhs, const int64x64_t &rhs)
 Less or equal operator.
 
bool operator<= (const Length &left, const Length &right)
 Check if left has a value less than or equal to right.
 
bool operator<= (const Time &lhs, const Time &rhs)
 Less than or equal operator for Time.
 
template<typename T , typename U >
bool operator<= (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator<= (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator<= (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator<= (const Vector2D &a, const Vector2D &b)
 
bool operator<= (const Vector3D &a, const Vector3D &b)
 
bool operator== (const Address &a, const Address &b)
 
bool operator== (const Cid &lhs, const Cid &rhs)
 equality operator
 
bool operator== (const EpcEnbApplication::EpsFlowId_t &a, const EpcEnbApplication::EpsFlowId_t &b)
 
bool operator== (const EventId &a, const EventId &b)
 
bool operator== (const FcfsPrio &lhs, const FcfsPrio &rhs)
 
bool operator== (const FrequencyRange &lhs, const FrequencyRange &rhs)
 Compare two FrequencyRange values.
 
bool operator== (const ImsiLcidPair_t &a, const ImsiLcidPair_t &b)
 Equality operator.
 
bool operator== (const Ipv4Address &a, const Ipv4Address &b)
 
bool operator== (const Ipv4FlowClassifier::FiveTuple &t1, const Ipv4FlowClassifier::FiveTuple &t2)
 Equal to operator.
 
bool operator== (const Ipv4InterfaceAddress &a, const Ipv4InterfaceAddress &b)
 
bool operator== (const Ipv4Mask &a, const Ipv4Mask &b)
 
bool operator== (const Ipv4MulticastRoutingTableEntry a, const Ipv4MulticastRoutingTableEntry b)
 Equality operator.
 
bool operator== (const Ipv4RoutingTableEntry a, const Ipv4RoutingTableEntry b)
 Equality operator.
 
bool operator== (const Ipv6Address &a, const Ipv6Address &b)
 
bool operator== (const Ipv6FlowClassifier::FiveTuple &t1, const Ipv6FlowClassifier::FiveTuple &t2)
 Equal to operator.
 
bool operator== (const Ipv6InterfaceAddress &a, const Ipv6InterfaceAddress &b)
 
bool operator== (const Ipv6Prefix &a, const Ipv6Prefix &b)
 
bool operator== (const Length &left, const Length &right)
 Compare two length objects for equality.
 
bool operator== (const LteFlowId_t &a, const LteFlowId_t &b)
 Equality operator.
 
bool operator== (const LteUeConfig_t &a, const LteUeConfig_t &b)
 Equality operator.
 
bool operator== (const Mac16Address &a, const Mac16Address &b)
 
bool operator== (const Mac48Address &a, const Mac48Address &b)
 
bool operator== (const Mac64Address &a, const Mac64Address &b)
 
bool operator== (const Mac8Address &a, const Mac8Address &b)
 Address comparison, equality.
 
template<typename T1 , typename T2 >
std::enable_if_t< std::is_same_v< T2, std::nullptr_t >, bool > operator== (const Ptr< T1 > &lhs, T2 rhs)
 Specialization for comparison to nullptr.
 
bool operator== (const Scheduler::Event &a, const Scheduler::Event &b)
 Compare (equal) two events by Event.
 
bool operator== (const Scheduler::EventKey &a, const Scheduler::EventKey &b)
 Compare (equal) two events by EventKey.
 
bool operator== (const SpectrumModel &lhs, const SpectrumModel &rhs)
 
bool operator== (const SpectrumValue &lhs, const SpectrumValue &rhs)
 
bool operator== (const TbId_t &a, const TbId_t &b)
 Equality operator.
 
bool operator== (const TcpHeader &lhs, const TcpHeader &rhs)
 
bool operator== (const TcpRateLinux::TcpRateConnection &lhs, const TcpRateLinux::TcpRateConnection &rhs)
 Comparison operator.
 
bool operator== (const TcpRateLinux::TcpRateSample &lhs, const TcpRateLinux::TcpRateSample &rhs)
 Comparison operator.
 
bool operator== (const Time &lhs, const Time &rhs)
 Equality operator for Time.
 
template<typename T , typename U >
bool operator== (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator== (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator== (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator== (const UlJob &a, const UlJob &b)
 equality operator
 
bool operator== (const Vector2D &a, const Vector2D &b)
 
bool operator== (const Vector3D &a, const Vector3D &b)
 
bool operator== (const WifiMode &a, const WifiMode &b)
 Check if the two WifiModes are identical.
 
bool operator== (const WifiPhyTraceStatistics &lhs, const WifiPhyTraceStatistics &rhs)
 Checks if two WifiPhyTraceStatistics objects are equal.
 
bool operator== (const WifiPpduRxRecord &lhs, const WifiPpduRxRecord &rhs)
 Checks if two WifiPpduRxRecord objects are equal.
 
bool operator> (AcIndex left, AcIndex right)
 Operator> overload returning true if the AC on the left has higher priority than the AC on the right.
 
bool operator> (const Length &left, const Length &right)
 Check if left has a value greater than right.
 
bool operator> (const Scheduler::Event &a, const Scheduler::Event &b)
 Compare (greater than) two events by Event.
 
bool operator> (const Scheduler::EventKey &a, const Scheduler::EventKey &b)
 Compare (greater than) two events by EventKey.
 
bool operator> (const Time &lhs, const Time &rhs)
 Greater than operator for Time.
 
template<typename T , typename U >
bool operator> (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator> (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator> (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator> (const Vector2D &a, const Vector2D &b)
 
bool operator> (const Vector3D &a, const Vector3D &b)
 
bool operator>= (AcIndex left, AcIndex right)
 Operator>= overload returning true if the AC on the left has higher or the same priority than the AC on the right.
 
bool operator>= (const int64x64_t &lhs, const int64x64_t &rhs)
 Greater or equal operator.
 
bool operator>= (const Length &left, const Length &right)
 Check if left has a value greater than or equal to right.
 
bool operator>= (const Time &lhs, const Time &rhs)
 Greater than or equal operator for Time.
 
template<typename T , typename U >
bool operator>= (const TracedValue< T > &lhs, const TracedValue< U > &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator>= (const TracedValue< T > &lhs, const U &rhs)
 Boolean operator for TracedValue.
 
template<typename T , typename U >
bool operator>= (const U &lhs, const TracedValue< T > &rhs)
 Boolean operator for TracedValue.
 
bool operator>= (const Vector2D &a, const Vector2D &b)
 
bool operator>= (const Vector3D &a, const Vector3D &b)
 
template<typename T , typename U >
auto operator>> (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() > > rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator>> (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() > > rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator>> (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs > > rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
std::istream & operator>> (std::istream &is, Address &address)
 
std::istream & operator>> (std::istream &is, Angles &a)
 
std::istream & operator>> (std::istream &is, Box &box)
 Stream extraction operator.
 
template<typename NUMERIC_TYPE , typename SIGNED_TYPE >
std::istream & operator>> (std::istream &is, const SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE > &val)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, DataRate &rate)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, int64x64_t &value)
 Input streamer for int64x64_t.
 
std::istream & operator>> (std::istream &is, Ipv4Address &address)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Ipv4Mask &mask)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Ipv6Address &address)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Ipv6Prefix &prefix)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Mac16Address &address)
 
std::istream & operator>> (std::istream &is, Mac48Address &address)
 
std::istream & operator>> (std::istream &is, Mac64Address &address)
 
std::istream & operator>> (std::istream &is, Mac8Address &address)
 Read address from stream is as 8 bit integer.
 
std::istream & operator>> (std::istream &is, ObjectFactory &factory)
 
std::istream & operator>> (std::istream &is, Priomap &priomap)
 Serialize from the given istream to this priomap.
 
std::istream & operator>> (std::istream &is, QueueSize &size)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Rectangle &rectangle)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Ssid &ssid)
 Serialize from the given istream to this SSID.
 
std::istream & operator>> (std::istream &is, Time &time)
 Time input streamer.
 
std::istream & operator>> (std::istream &is, TypeId &tid)
 Extraction operator for TypeId.
 
std::istream & operator>> (std::istream &is, UanModesList &ml)
 Read UanModesList from stream is.
 
std::istream & operator>> (std::istream &is, UanPdp &pdp)
 Reads in list of arrivals from stream is.
 
std::istream & operator>> (std::istream &is, UanTxMode &mode)
 Reads tx mode entry from stream is.
 
std::istream & operator>> (std::istream &is, ValueClassTest &v)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, Vector2D &vector)
 
std::istream & operator>> (std::istream &is, Vector3D &vector)
 
std::istream & operator>> (std::istream &is, Waypoint &waypoint)
 Stream extraction operator.
 
std::istream & operator>> (std::istream &is, WifiMode &mode)
 Serialize WifiMode from istream (human-readable).
 
std::istream & operator>> (std::istream &stream, Length &l)
 Read a length value from an input stream.
 
template<typename T , typename U >
TracedValue< T > & operator>>= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
template<typename T , typename U >
auto operator^ (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get() ^ rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator^ (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get() ^ rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator^ (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs ^ rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
TracedValue< T > & operator^= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
template<typename T , typename U >
auto operator| (const TracedValue< T > &lhs, const TracedValue< U > &rhs) -> TracedValue< decltype(lhs.Get()|rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator| (const TracedValue< T > &lhs, const U &rhs) -> TracedValue< decltype(lhs.Get()|rhs)>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
auto operator| (const U &lhs, const TracedValue< T > &rhs) -> TracedValue< decltype(lhs|rhs.Get())>
 Infix arithmetic operator for TracedValue.
 
template<typename T , typename U >
TracedValue< T > & operator|= (TracedValue< T > &lhs, const U &rhs)
 Operator assignment for TracedValue.
 
template<typename T >
TracedValue< T > operator~ (const TracedValue< T > &lhs)
 Unary arithmetic operator for TracedValue.
 
static bool output_sign (const cairo_int128_t sa, const cairo_int128_t sb, cairo_uint128_t &ua, cairo_uint128_t &ub)
 Compute the sign of the result of multiplying or dividing Q64.64 fixed precision operands.
 
static bool output_sign (const int128_t sa, const int128_t sb, uint128_t &ua, uint128_t &ub)
 Compute the sign of the result of multiplying or dividing Q64.64 fixed precision operands.
 
std::tuple< bool, double, std::string > ParseLengthString (const std::string &input)
 This function provides a string parsing method that does not rely on istream, which has been found to have different behaviors in different implementations.
 
static ParseResult ParseNs2Line (const std::string &str)
 Parses a line of ns2 mobility.
 
static void PcapSniffLrWpan (Ptr< PcapFileWrapper > file, Ptr< const Packet > packet)
 Write a packet in a PCAP file.
 
static void PcapSniffTxRxEvent (Ptr< PcapFileWrapper > file, Ptr< const PacketBurst > burst)
 print pcap record
 
static SimulatorImpl ** PeekImpl ()
 Get the static SimulatorImpl instance.
 
template<typename U >
U * PeekPointer (const Ptr< U > &p)
 
SpectrumValue Pow (const SpectrumValue &lhs, double rhs)
 
SpectrumValue Pow (double lhs, const SpectrumValue &rhs)
 
static void PrintNodeInfo (std::string &uid, std::string &loc, bool dns, bool bb, std::vector< std::string >::size_type neighListSize, std::string &name, int radius)
 Print node info.
 
double Prod (const SpectrumValue &x)
 
bool QosUtilsIsOldPacket (uint16_t startingSeq, uint16_t seqNumber)
 This function checks if packet with sequence number seqNumber is an "old" packet.
 
uint32_t QosUtilsMapSeqControlToUniqueInteger (uint16_t seqControl, uint16_t endSequence)
 Next function is useful to correctly sort buffered packets under block ack.
 
AcIndex QosUtilsMapTidToAc (uint8_t tid)
 Maps TID (Traffic ID) to Access classes.
 
std::vector< doubleRadiansToDegrees (const std::vector< double > &radians)
 converts radians to degrees
 
double RadiansToDegrees (double radians)
 converts radians to degrees
 
dB_u RatioToDb (double ratio)
 Convert from ratio to dB.
 
void ReadFrom (Buffer::Iterator &i, Address &ad, uint32_t len)
 Read an Address from a Buffer.
 
void ReadFrom (Buffer::Iterator &i, Ipv4Address &ad)
 Read an Ipv4Address from a Buffer.
 
void ReadFrom (Buffer::Iterator &i, Ipv6Address &ad)
 Read an Ipv6Address from a Buffer.
 
void ReadFrom (Buffer::Iterator &i, Mac16Address &ad)
 Read a Mac16Address from a Buffer.
 
void ReadFrom (Buffer::Iterator &i, Mac48Address &ad)
 Read a Mac48Address from a Buffer.
 
void ReadFrom (Buffer::Iterator &i, Mac64Address &ad)
 Read a Mac64Address from a Buffer.
 
static uint64_t ReadHiDigits (std::string str)
 Read the integer portion of a number from a string containing just the integral digits (no decimal point or fractional part).
 
static uint64_t ReadLoDigits (std::string str)
 Read the fractional part of a number from a string containing just the decimal digits of the fractional part (no integral part or decimal point).
 
static uint32_t ReciprocalDivide (uint32_t A, uint32_t R)
 Performs a reciprocal divide, similar to the Linux kernel reciprocal_divide function.
 
static uint32_t ReciprocalDivide (uint32_t A, uint32_t R)
 Performs a reciprocal divide, similar to the Linux kernel reciprocal_divide function.
 
static void RemovePIHeader (uint8_t *&buf, ssize_t &len)
 Removes PI header.
 
static const std::regex rocketfuel_maps_regex (ROCKETFUEL_MAPS_LINE)
 Build a Regex object for RocketFuel topology maps file type.
 
static const std::regex rocketfuel_weights_regex (ROCKETFUEL_WEIGHTS_LINE)
 Build a Regex object for RocketFuel topology weights file type.
 
void save_clicked_attribute (GtkButton *button, gpointer user_data)
 This is the action done when the user presses on the save button for the Attributes.
 
void save_clicked_default (GtkButton *button, gpointer user_data)
 This is the action done when the user presses on the save button for the Default attributes.
 
uint8_t SelectQueueByDSField (Ptr< QueueItem > item)
 Determine the TX queue for a given packet.
 
void SendSocket (const char *path, int fd, const int magic_number)
 Send the file descriptor back to the code that invoked the creation.
 
static Vector SetInitialPosition (Ptr< ConstantVelocityMobilityModel > model, std::string coord, double coordVal)
 Set initial position for a node.
 
void SetMaxNss (std::vector< uint8_t > &vec, uint8_t maxNss, uint8_t mcsStart, uint8_t mcsEnd)
 set the max Tx/Rx NSS for input MCS index range
 
static DestinationPoint SetMovement (Ptr< ConstantVelocityMobilityModel > model, Vector lastPos, double at, double xFinalPosition, double yFinalPosition, double speed)
 Set waypoints and speed for movement.
 
static Vector SetOneInitialCoord (Vector actPos, std::string &coord, double value)
 Add one coord to a vector position.
 
static Vector SetSchedPosition (Ptr< ConstantVelocityMobilityModel > model, double at, std::string coord, double coordVal)
 Schedule a set of position for a node.
 
template<typename RND_ACCESS_ITER >
void Shuffle (RND_ACCESS_ITER first, RND_ACCESS_ITER last, Ptr< UniformRandomVariable > rv)
 Shuffle the elements in the range first to last.
 
StringVector SplitString (const std::string &str, const std::string &delim)
 Split a string on a delimiter.
 
bool StringToBuffer (std::string s, uint8_t *buffer, uint32_t *len)
 Convert string encoded by the inverse function (TapBufferToString) back into a byte buffer.
 
double Sum (const SpectrumValue &x)
 
std::string TapBufferToString (uint8_t *buffer, uint32_t len)
 Convert a byte buffer to a string containing a hex representation of the buffer.
 
bool TapStringToBuffer (std::string s, uint8_t *buffer, uint32_t *len)
 Convert string encoded by the inverse function (TapBufferToString) back into a byte buffer.
 
bool TestDoubleIsEqual (const double a, const double b, const double epsilon=std::numeric_limits< double >::epsilon())
 Compare two double precision floating point numbers and declare them equal if they are within some epsilon of each other.
 
bool TidToLinkMappingValidForNegType1 (const WifiTidLinkMapping &dlLinkMapping, const WifiTidLinkMapping &ulLinkMapping)
 Check if the given TID-to-Link Mappings are valid for a negotiation type of 1.
 
std::string ToName (Length::Unit unit, bool plural=false)
 Return the name of the supplied unit.
 
static const std::string & ToString (EpcUeNas::State s)
 
static const std::string & ToString (LteUePhy::State s)
 
static const std::string & ToString (UeManager::State s)
 
std::string ToSymbol (Length::Unit unit)
 Return the symbol of the supplied unit.
 
static std::string TrimNs2Line (const std::string &str)
 Put out blank spaces at the start and end of a line.
 
template<typename T >
std::string TypeNameGet ()
 Type name strings for AttributeValue types.
 
 TYPENAMEGET_DEFINE (SequenceNumber32)
 ns3::TypeNameGet<SequenceNumber32>() specialization.
 
 TYPENAMEGET_DEFINE (Time)
 ns3::TypeNameGet<Time>() specialization.
 
void UlRxPduCallback (Ptr< BoundCallbackArgument > arg, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize, uint64_t delay)
 Callback function for UL RX statistics for both RLC and PDCP.
 
void UlTxPduCallback (Ptr< BoundCallbackArgument > arg, std::string path, uint16_t rnti, uint8_t lcid, uint32_t packetSize)
 Callback function for UL TX statistics for both RLC and PDCP.
 
double WrapTo180 (double a)
 Wrap angle in [-180, 180)
 
double WrapTo2Pi (double a)
 Wrap angle in [0, 2*M_PI)
 
double WrapTo360 (double a)
 Wrap angle in [0, 360)
 
double WrapToPi (double a)
 Wrap angle in [-M_PI, M_PI)
 
static void WriteAveragePowerSpectralDensityReport (Ptr< OutputStreamWrapper > streamWrapper, Ptr< const SpectrumValue > avgPowerSpectralDensity)
 Writes a report of the Average Power Spectral Density.
 
void WriteTo (Buffer::Iterator &i, const Address &ad)
 Write an Address to a Buffer.
 
void WriteTo (Buffer::Iterator &i, Ipv4Address ad)
 Write an Ipv4Address to a Buffer.
 
void WriteTo (Buffer::Iterator &i, Ipv6Address ad)
 Write an Ipv4Address to a Buffer.
 
void WriteTo (Buffer::Iterator &i, Mac16Address ad)
 Write an Mac16Address to a Buffer.
 
void WriteTo (Buffer::Iterator &i, Mac48Address ad)
 Write an Mac48Address to a Buffer.
 
void WriteTo (Buffer::Iterator &i, Mac64Address ad)
 Write an Mac64Address to a Buffer.
 
dBm_u WToDbm (Watt_u val)
 Convert from Watts to dBm.
 
template<typename T , typename OBJ , typename R , typename... Args>
Callback< R, Args... > MakeCallback (R(T::*memPtr)(Args...), OBJ objPtr)
 Build Callbacks for class method members which take varying numbers of arguments and potentially returning a value.
 
template<typename R , typename... Args, typename... BArgs>
auto MakeBoundCallback (R(*fnPtr)(Args...), BArgs &&... bargs)
 Make Callbacks with varying number of bound arguments.
 
template<typename T , typename OBJ , typename R , typename... Args, typename... BArgs>
auto MakeCallback (R(T::*memPtr)(Args...), OBJ objPtr, BArgs... bargs)
 
Length NanoMeters (double value)
 Construct a length from a value in the indicated unit.
 
Length MicroMeters (double value)
 Construct a length from a value in the indicated unit.
 
Length MilliMeters (double value)
 Construct a length from a value in the indicated unit.
 
Length CentiMeters (double value)
 Construct a length from a value in the indicated unit.
 
Length Meters (double value)
 Construct a length from a value in the indicated unit.
 
Length KiloMeters (double value)
 Construct a length from a value in the indicated unit.
 
Length NauticalMiles (double value)
 Construct a length from a value in the indicated unit.
 
Length Inches (double value)
 Construct a length from a value in the indicated unit.
 
Length Feet (double value)
 Construct a length from a value in the indicated unit.
 
Length Yards (double value)
 Construct a length from a value in the indicated unit.
 
Length Miles (double value)
 Construct a length from a value in the indicated unit.
 
Time operator% (const Time &lhs, const Time &rhs)
 Remainder (modulus) from the quotient of two Times.
 
Time Rem (const Time &lhs, const Time &rhs)
 Remainder (modulus) from the quotient of two Times.
 
Time Years (double value)
 Construct a Time in the indicated unit.
 
Time Years (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time Days (double value)
 Construct a Time in the indicated unit.
 
Time Days (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time Hours (double value)
 Construct a Time in the indicated unit.
 
Time Hours (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time Minutes (double value)
 Construct a Time in the indicated unit.
 
Time Minutes (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time Seconds (double value)
 Construct a Time in the indicated unit.
 
Time Seconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time MilliSeconds (uint64_t value)
 Construct a Time in the indicated unit.
 
Time MilliSeconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time MicroSeconds (uint64_t value)
 Construct a Time in the indicated unit.
 
Time MicroSeconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time NanoSeconds (uint64_t value)
 Construct a Time in the indicated unit.
 
Time NanoSeconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time PicoSeconds (uint64_t value)
 Construct a Time in the indicated unit.
 
Time PicoSeconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
Time FemtoSeconds (uint64_t value)
 Construct a Time in the indicated unit.
 
Time FemtoSeconds (int64x64_t value)
 Construct a Time in the indicated unit.
 
template<typename T , typename... Args>
Ptr< T > CreateObject (Args &&... args)
 Create an object by type, with varying number of constructor parameters.
 
template<typename T1 , typename T2 >
bool operator== (const Ptr< T1 > &lhs, T2 const *rhs)
 Equality operator.
 
template<typename T1 , typename T2 >
bool operator== (T1 const *lhs, Ptr< T2 > &rhs)
 Equality operator.
 
template<typename T1 , typename T2 >
bool operator== (const Ptr< T1 > &lhs, const Ptr< T2 > &rhs)
 Equality operator.
 
template<typename T1 , typename T2 >
bool operator!= (const Ptr< T1 > &lhs, T2 const *rhs)
 Inequality operator.
 
template<typename T1 , typename T2 >
bool operator!= (T1 const *lhs, Ptr< T2 > &rhs)
 Inequality operator.
 
template<typename T1 , typename T2 >
bool operator!= (const Ptr< T1 > &lhs, const Ptr< T2 > &rhs)
 Inequality operator.
 
template<typename T >
bool operator< (const Ptr< T > &lhs, const Ptr< T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T >
bool operator< (const Ptr< T > &lhs, const Ptr< const T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T >
bool operator< (const Ptr< const T > &lhs, const Ptr< T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T >
bool operator<= (const Ptr< T > &lhs, const Ptr< T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T >
bool operator> (const Ptr< T > &lhs, const Ptr< T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T >
bool operator>= (const Ptr< T > &lhs, const Ptr< T > &rhs)
 Comparison operator applied to the underlying pointers.
 
template<typename T1 , typename T2 >
Ptr< T1 > ConstCast (const Ptr< T2 > &p)
 Cast a Ptr.
 
template<typename T1 , typename T2 >
Ptr< T1 > DynamicCast (const Ptr< T2 > &p)
 Cast a Ptr.
 
template<typename T1 , typename T2 >
Ptr< T1 > StaticCast (const Ptr< T2 > &p)
 Cast a Ptr.
 
template<typename T >
Ptr< T > Copy (Ptr< T > object)
 Return a deep copy of a Ptr.
 
bool operator< (TypeId a, TypeId b)
 Comparison operator.
 
bool operator== (TypeId a, TypeId b)
 Comparison operator.
 
bool operator!= (TypeId a, TypeId b)
 Comparison operator.
 
 TYPENAMEGET_DEFINE (bool)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (int8_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (int16_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (int32_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (int64_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (uint8_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (uint16_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (uint32_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (uint64_t)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (float)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (double)
 ns3::TypeNameGet() specialization for numeric types.
 
 TYPENAMEGET_DEFINE (long double)
 ns3::TypeNameGet() specialization for numeric types.
 

Variables

constexpr uint32_t ALLOC_OVER_PROVISION = 100
 Additional bytes to over-provision.
 
const SnrPerTable AwgnErrorTableBcc1458 [ERROR_TABLE_BCC_MAX_NUM_MCS]
 AWGN error table for BCC with reference size of 1458 bytes.
 
const SnrPerTable AwgnErrorTableBcc32 [ERROR_TABLE_BCC_MAX_NUM_MCS]
 AWGN error table for BCC with reference size of 32 bytes.
 
const SnrPerTable AwgnErrorTableLdpc1458 [ERROR_TABLE_LDPC_MAX_NUM_MCS]
 AWGN error table for LDPC with reference size of 1458 bytes.
 
static const double bEcrTable [9][38]
 BECR table.
 
static constexpr uint64_t BIT_63_TO_26_MASK = 0xfffffffffc000000
 Bitmask with all bits from 63 to 26 set to 1, all the others set to 0.
 
static const double BlerCurvesEcrMap [38]
 global table of the effective code rates (ECR)s that have BLER performance curves
 
static const uint32_t BufferSizeLevelBsrTable [64]
 Buffer size level BSR table.
 
static const double CACHE_INITIAL_VALUE = -100
 To avoid using the cache before a valid value has been cached.
 
template<class T >
constexpr bool CanBeInPerStaProfileV = CanBeInPerStaProfile<T>::value
 Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element.
 
static const uint16_t cbMiSizeTable [9] = {40, 104, 160, 256, 512, 1024, 2560, 4032, 6144}
 MI size table.
 
static const uint16_t cbSizeTable [188]
 as K column of table 5.1.3-3 of TS 36,212
 
static const double cEcrTable [9][38]
 CECR table.
 
const std::map< WifiChannelListType, dBm_uchannelTypeToScalingFactor
 map a given channel list type to the corresponding scaling factor
 
static const int CODEL_SHIFT = 10
 Number of bits discarded from the time representation.
 
static const int CqaType0AllocationRbg [4]
 CGA Type 0 Allocation.
 
static uint32_t crc32table [256]
 Table of CRC-32 values.
 
static uint8_t crc8table [256]
 crc8 table
 
static constexpr uint16_t DEFAULT_MSD_DURATION_USEC = 5484 / 32 * 32
 default MediumSyncDelay timer duration (max PPDU TX time rounded to a multiple of 32 us)
 
static constexpr uint8_t DEFAULT_MSD_MAX_N_TXOPS = 1
 default MediumSyncDelay max number of TXOP attempts
 
static constexpr int8_t DEFAULT_MSD_OFDM_ED_THRESH = -72
 default MediumSyncDelay timer OFDM ED threshold
 
constexpr auto DEFAULT_WIFI_TID_LINK_MAP_DIR {WifiDirection::BOTH_DIRECTIONS}
 default value for the Direction subfield of the TID-To-Link Control field
 
constexpr auto DEFAULT_WIFI_TID_LINK_MAPPING {true}
 whether to enforce the default link mapping
 
static constexpr double DEG2RAD = M_PI / 180.0
 Conversion factor: degrees to radians.
 
const double DEG_TO_RAD = M_PI / 180.0
 Degrees to Radians conversion constant.
 
static const Time DL_CTRL_DELAY_FROM_SUBFRAME_START = NanoSeconds(214286)
 Delay from the start of a DL subframe to transmission of the data portion.
 
static const Time DL_CTRL_DURATION = NanoSeconds(214286 - 1)
 duration of the control portion of a subframe = 0.001 / 14 * 3 (ctrl fixed to 3 symbols) -1ns as margin to avoid overlapping simulator events
 
static const Time DL_DATA_DURATION = NanoSeconds(785714 - 1)
 Duration of the data portion of a DL subframe.
 
static const double EffectiveCodingRate [29]
 Effective coding rate.
 
const Time EMLSR_RX_PHY_START_DELAY = MicroSeconds(20)
 aRxPHYStartDelay value to use when waiting for a new frame in the context of EMLSR operations (Sec.
 
const uint16_t ERROR_TABLE_BCC_LARGE_FRAME_SIZE
 reference size (bytes) of large frames for BCC
 
const uint8_t ERROR_TABLE_BCC_MAX_NUM_MCS = 10
 maximum number of MCSs for BCC
 
const uint16_t ERROR_TABLE_BCC_SMALL_FRAME_SIZE
 reference size (bytes) of small frames for BCC
 
const uint16_t ERROR_TABLE_LDPC_FRAME_SIZE = 1458
 reference size (bytes) for LDPC
 
const uint8_t ERROR_TABLE_LDPC_MAX_NUM_MCS = 12
 maximum number of MCSs for LDPC
 
const int europeArrayLength = 70
 EUROPE: 70 elements (index 0 - 69); valid channels = 5 - 12, 21 - 69.
 
const double europeEndFrequencies [70]
 EUROPE end frequencies.
 
const double europeStartFrequencies [70]
 EUROPE start frequencies.
 
static const int FdBetType0AllocationRbg [4]
 FdBetType0AllocationRbg array.
 
static const int FdMtType0AllocationRbg [4]
 FdMtType0AllocationRbg size array.
 
static const int FdTbfqType0AllocationRbg [4]
 FdTbfqType0AllocationRbg value array.
 
static const EutraChannelNumbers g_eutraChannelNumbers []
 Eutra channel numbers.
 
static const FfrEnhancedDownlinkDefaultConfiguration g_ffrEnhancedDownlinkDefaultConfiguration []
 The enhanced downlink default configuration.
 
static const FfrEnhancedUplinkDefaultConfiguration g_ffrEnhancedUplinkDefaultConfiguration []
 The enhanced uplink default configuration.
 
static const FfrSoftDownlinkDefaultConfiguration g_ffrSoftDownlinkDefaultConfiguration []
 The soft downlink default configuration.
 
static const FfrSoftUplinkDefaultConfiguration g_ffrSoftUplinkDefaultConfiguration []
 The soft uplink default configuration.
 
ns3::ByteTagListDataFreeList g_freeList
 Container for struct ByteTagListData.
 
static const FrHardDownlinkDefaultConfiguration g_frHardDownlinkDefaultConfiguration []
 The hard downlink default configuration.
 
static const FrHardUplinkDefaultConfiguration g_frHardUplinkDefaultConfiguration []
 The hard uplink default configuration.
 
static const FrSoftDownlinkDefaultConfiguration g_frSoftDownlinkDefaultConfiguration []
 Soft downlink default configuration.
 
static const FrSoftUplinkDefaultConfiguration g_frSoftUplinkDefaultConfiguration []
 Soft uplink default configuration.
 
static const FrStrictDownlinkDefaultConfiguration g_frStrictDownlinkDefaultConfiguration []
 The strict downlink default configuration.
 
static const FrStrictUplinkDefaultConfiguration g_frStrictUplinkDefaultConfiguration []
 The strict uplink default configuration.
 
static uint32_t g_handoverCommandMsgIdCounter = 0
 handover command message ID counter
 
static std::map< uint32_t, LteRrcSap::RrcConnectionReconfigurationg_handoverCommandMsgMap
 handover command message map
 
static uint32_t g_handoverPreparationInfoMsgIdCounter
 handover preparation info message ID counter
 
static std::map< uint32_t, LteRrcSap::HandoverPreparationInfog_handoverPreparationInfoMsgMap
 handover preparation info message map
 
static InterfaceFileMapIpv4 g_interfaceFileMapIpv4
 A mapping of Ipv4/interface pairs to pcap files.
 
static InterfaceFileMapIpv4 g_interfaceFileMapIpv4
 A mapping of Ipv4/interface pairs to pcap files.
 
static InterfaceFileMapIpv6 g_interfaceFileMapIpv6
 A mapping of Ipv6/interface pairs to pcap files.
 
static InterfaceStreamMapIpv4 g_interfaceStreamMapIpv4
 A mapping of Ipv4/interface pairs to ascii streams.
 
static InterfaceStreamMapIpv4 g_interfaceStreamMapIpv4
 A mapping of Ipv4/interface pairs to ascii streams.
 
static InterfaceStreamMapIpv6 g_interfaceStreamMapIpv6
 A mapping of Ipv6/interface pairs to pcap files.
 
static Ipv4ListRoutingTestSuite g_ipv4ListRoutingTestSuite
 Static variable for test initialization.
 
static Ipv6ListRoutingTestSuite g_ipv6ListRoutingTestSuite
 Static variable for test initialization.
 
static NodePrinter g_logNodePrinter = nullptr
 The Log NodePrinter.
 
static TimePrinter g_logTimePrinter = nullptr
 The Log TimePrinter.
 
static std::map< LteSpectrumModelId, Ptr< SpectrumModel > > g_lteSpectrumModelMap
 LTE spectrum model map.
 
static std::mutex g_markingMutex
 The static mutex for critical sections around modification of Time::g_markingTimes.
 
static uint32_t g_maxSize = 0
 maximum data size (used for allocation)
 
static Ptr< SpectrumModelg_MicrowaveOvenSpectrumModel5Mhz
 Spectrum model for the 5MHz model (model #2)
 
static class ns3::MicrowaveOvenSpectrumModel5MhzInitializer g_MicrowaveOvenSpectrumModel5MhzInitializerInstance
 MWO model #2.
 
static Ptr< SpectrumModelg_MicrowaveOvenSpectrumModel6Mhz
 Spectrum model for the 6MHz model (model #1)
 
static class ns3::MicrowaveOvenSpectrumModel6MhzInitializer g_MicrowaveOvenSpectrumModel6MhzInitializerInstance
 MWO model #1.
 
static PrintList g_printList
 Invoke handler for print-list in NS_LOG environment variable.
 
static GlobalValue g_schedTypeImpl
 The specific event scheduler implementation to use.
 
static GlobalValue g_simTypeImpl
 The specific simulator implementation to use.
 
static const uint16_t g_srsCiHigh [SRS_ENTRIES] = {0, 1, 6, 16, 36, 76, 156, 316, 636}
 The upper bound (inclusive) of the SRS configuration indices (ISRS) which use the corresponding SRS periodicity (TSRS).
 
static const uint16_t g_srsCiLow [SRS_ENTRIES] = {0, 0, 2, 7, 17, 37, 77, 157, 317}
 The lower bound (inclusive) of the SRS configuration indices (ISRS) which use the corresponding SRS periodicity (TSRS).
 
static const uint16_t g_srsPeriodicity [SRS_ENTRIES] = {0, 2, 5, 10, 20, 40, 80, 160, 320}
 Sounding Reference Symbol (SRS) periodicity (TSRS) in milliseconds.
 
static_SpectrumModel300Khz300GhzLog_initializer g_static_SpectrumModel300Khz300GhzLog_initializer_instance
 Static variable for analyzer initialization.
 
static_SpectrumModelIsm2400MhzRes1Mhz_initializer g_static_SpectrumModelIsm2400MhzRes1Mhz_initializer_instance
 Static variable for analyzer initialization.
 
static TcpBbrTestSuite g_tcpBbrTest
 static variable for test initialization
 
static TcpEcnTestSuite g_tcpECNTestSuite
 static var for test initialization
 
static TcpLpTestSuite g_tcplpTest
 static var for test initialization
 
static TcpTcpCloseTestSuite g_tcpTcpCloseTestSuite
 Static variable for test initialization.
 
static TimeInitializationHelper g_timeInitHelper
 Instance of Time static initialization helper.
 
static std::map< TvSpectrumModelId, Ptr< SpectrumModel > > g_tvSpectrumModelMap
 Stores created spectrum models.
 
static const std::string g_ueManagerStateName [UeManager::NUM_STATES]
 Map each of UE Manager states to its string representation.
 
static const std::string g_ueNasStateName [EpcUeNas::NUM_STATES]
 Map each of UE NAS states to its string representation.
 
static const std::string g_uePhyStateName [LteUePhy::NUM_STATES]
 Map each of UE PHY states to its string representation.
 
static const std::string g_ueRrcStateName [LteUeRrc::NUM_STATES]
 Map each of UE RRC states to its string representation.
 
static PyVizg_visualizer = nullptr
 the visualizer
 
static Ptr< SpectrumModelg_WifiSpectrumModel5Mhz
 static initializer for the class
 
static class ns3::WifiSpectrumModel5MhzInitializer g_WifiSpectrumModel5MhzInitializerInstance
 initialization instance for WifiSpectrumModel5Mhz
 
static std::map< WifiSpectrumModelId, Ptr< SpectrumModel > > g_wifiSpectrumModelMap
 static initializer for the class
 
bool gVerbose = false
 Flag to enable / disable verbose log mode.
 
constexpr uint32_t HARQ_DL_TIMEOUT = 11
 HARQ DL timeout.
 
constexpr uint32_t HARQ_PROC_NUM = 8
 Number of HARQ processes.
 
constexpr uint8_t HT_MAX_NSS = 4
 Maximum number of supported NSS by HT PHY.
 
static bool initialized = false
 Initialization flag.
 
const int japanArrayLength = 63
 JAPAN: 63 elements (index 0 - 62); valid channels = 1 - 62.
 
const double japanEndFrequencies [63]
 JAPAN end frequencies.
 
const double japanStartFrequencies [63]
 JAPAN start frequencies.
 
static LenaTestBearerDeactivateSuite lenaTestBearerDeactivateSuite
 Static variable for test initialization.
 
static const uint16_t LLC_SNAP_HEADER_LENGTH = 8
 The length in octets of the LLC/SNAP header.
 
const uint32_t MAGIC = 0xa1b2c3d4
 Magic number identifying standard pcap file format.
 
static const uint8_t MAX_HE_GROUP_RATES = 12
 Number of rates (or MCS) per HE group.
 
static const uint8_t MAX_HE_STREAM_GROUPS
 Maximal number of groups per stream in HE (4 possible channel widths and 3 possible GI configurations).
 
static const uint8_t MAX_HE_SUPPORTED_STREAMS
 Maximal number of streams supported by the HE PHY layer.
 
static const MHz_u MAX_HE_WIDTH = 160
 Maximal channel width.
 
static const uint8_t MAX_HT_GROUP_RATES = 8
 Number of rates (or MCS) per HT group.
 
static const uint8_t MAX_HT_STREAM_GROUPS
 Maximal number of groups per stream in HT (2 possible channel widths and 2 possible GI configurations).
 
static const uint8_t MAX_HT_SUPPORTED_STREAMS
 Constants for maximum values.
 
static const MHz_u MAX_HT_WIDTH = 40
 Maximal channel width.
 
static const uint32_t MAX_IPV4_UDP_DATAGRAM_SIZE = 65507
 Maximum UDP datagram size.
 
const uint32_t MAX_MPI_MSG_SIZE = 2000
 maximum MPI message size for easy buffer creation
 
static const uint16_t MAX_MSDU_SIZE = 2304
 This value conforms to the 802.11 specification.
 
constexpr uint32_t MAX_NO_CC = 5
 Maximum number of carrier components allowed by 3GPP up to R13.
 
static constexpr uint8_t MAX_PROPAGATION_DELAY_USEC = 1
 maximum propagation delay
 
static const uint8_t MAX_VHT_GROUP_RATES = 10
 Number of rates (or MCS) per VHT group.
 
static const uint8_t MAX_VHT_STREAM_GROUPS
 Maximal number of groups per stream in VHT (4 possible channel widths and 2 possible GI configurations).
 
static const uint8_t MAX_VHT_SUPPORTED_STREAMS
 Maximal number of streams supported by the VHT PHY layer.
 
static const MHz_u MAX_VHT_WIDTH = 160
 Maximal channel width.
 
static const uint8_t McsEcrBlerTableMapping [29]
 Table codifing standard MCSs ECR to available ECRs.
 
static const double McsEcrTable [29]
 Table of ECR of the standard MCSs.
 
static const int McsToItbsDl [29]
 Table of MCS index (IMCS) and its TBS index (ITBS).
 
static const int McsToItbsUl [29]
 Table of MCS index (IMCS) and its TBS index (ITBS).
 
const uint16_t MI_16QAM_BLER_MAX_ID = 22
 MI 16QAM BLER maximum ID.
 
const uint16_t MI_16QAM_MAX_ID = 16
 MI 16QAM maximum ID.
 
const uint16_t MI_64QAM_BLER_MAX_ID = 37
 MI 64QAM BLER maximum ID.
 
const uint16_t MI_64QAM_MAX_ID = 28
 MI 64QAM maximum ID.
 
static const double MI_map_16qam [MI_MAP_16QAM_SIZE]
 MI map QPSK 16QAM.
 
static const double MI_map_16qam_axis [MI_MAP_16QAM_SIZE]
 MI map 16QAM axis.
 
const uint16_t MI_MAP_16QAM_SIZE = 994
 MI map 16QAM size.
 
static const double MI_map_64qam [MI_MAP_64QAM_SIZE]
 MI map 64QAM.
 
static const double MI_map_64qam_axis [MI_MAP_64QAM_SIZE]
 MI map 64QAM axis.
 
const uint16_t MI_MAP_64QAM_SIZE = 752
 MI map 64QAM size.
 
static const double MI_map_qpsk [MI_MAP_QPSK_SIZE]
 MI map QPSK.
 
static const double MI_map_qpsk_axis [MI_MAP_QPSK_SIZE]
 MI map QPSK axis.
 
const uint16_t MI_MAP_QPSK_SIZE = 797
 MI map QPSK size.
 
const uint16_t MI_QPSK_BLER_MAX_ID = 12
 MI QPSK BLER maximum ID.
 
const uint16_t MI_QPSK_MAX_ID = 9
 MI QPSK maximum ID.
 
constexpr uint32_t MIN_NO_CC = 1
 Minimum number of carrier components allowed by 3GPP up to R13.
 
const uint32_t N_BITS = 32
 number of bits in a IPv4 address
 
const double NaN = zero / zero
 Stored representation of NaN.
 
constexpr double NO_SINR = -5000
 Value for SINR outside the range defined by FF-API, used to indicate that there is no CQI for this element.
 
static constexpr uint16_t NO_USER_STA_ID = 2046
 STA_ID for a RU that is intended for no user (Section 26.11.1 802.11ax-2021)
 
const int northAmericaArrayLength = 84
 NORTH AMERICA: 84 elements (index 0 - 83); valid channels = 2 - 83.
 
const double northAmericaEndFrequencies [84]
 NORTH AMERICA end frequencies.
 
const double northAmericaStartFrequencies [84]
 NORTH AMERICA start frequencies.
 
constexpr std::string_view NS_FATAL_MSG {"NS_FATAL, terminating"}
 Output string marking imminent invocation of std::terminate.
 
const uint32_t NS_MAGIC
 Magic number identifying nanosec resolution pcap file format.
 
const uint32_t NS_SWAPPED_MAGIC = 0x4d3cb2a1
 Looks this way if byte swapping is required.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNDenseUrbanLOS
 The nested map containing the 3GPP value tables for the NTN Dense Urban LOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 20 > > > NTNDenseUrbanNLOS
 The nested map containing the 3GPP value tables for the NTN Dense Urban NLOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNRuralLOS
 The nested map containing the 3GPP value tables for the NTN Rural LOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNRuralNLOS
 The nested map containing the 3GPP value tables for the NTN Rural NLOS scenario The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNSuburbanLOS
 The nested map containing the 3GPP value tables for the NTN Suburban LOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNSuburbanNLOS
 The nested map containing the 3GPP value tables for the NTN Suburban NLOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNUrbanLOS
 The nested map containing the 3GPP value tables for the NTN Urban LOS scenario.
 
static const std::map< std::string, std::map< int, std::array< float, 22 > > > NTNUrbanNLOS
 The nested map containing the 3GPP value tables for the NTN Urban NLOS scenario.
 
const uint32_t NULL_MESSAGE_MAX_MPI_MSG_SIZE = 2000
 maximum MPI message size for easy buffer creation
 
static constexpr std::array< double, 20 > offSetAlpha
 The ray offset angles within a cluster, given for rms angle spread normalized to 1.
 
const uint16_t PDCCH_PCFICH_CURVE_SIZE = 46
 PDCCH PCFICH curve size.
 
static const double PdcchPcfichBlerCurveXaxis [PDCCH_PCFICH_CURVE_SIZE]
 PCFICH-PDCCH Error model based on 3GPP R4-081920 "LTE PDCCH/PCFICH Demodulation Performance Results with Implementation Margin" X axis.
 
static const double PdcchPcfichBlerCurveYaxis [PDCCH_PCFICH_CURVE_SIZE]
 PCFICH-PDCCH Error model based on 3GPP R4-081920 "LTE PDCCH/PCFICH Demodulation Performance Results with Implementation Margin" Y axis.
 
static const int PfType0AllocationRbg [4]
 PF type 0 allocation RBG.
 
constexpr uint16_t PING_ID {0xbeef}
 This value is used to quickly identify ECHO packets generated by this app.
 
static const int PssType0AllocationRbg [4]
 PSS type 0 allocation RBG.
 
const double RAD_TO_DEG = 180.0 / M_PI
 Radians to Degrees conversion constant.
 
static const Time RRC_IDEAL_MSG_DELAY = MilliSeconds(0)
 
const Time RRC_REAL_MSG_DELAY = MilliSeconds(0)
 RRC real message delay.
 
static const std::array< uint64_t, 4 > s_dsssRatesBpsList = {1000000, 2000000, 5500000, 11000000}
 DSSS rates in bits per second.
 
static const std::array< uint64_t, 8 > s_erpOfdmRatesBpsList
 ERP OFDM rates in bits per second.
 
const std::map< MHz_u, std::array< uint64_t, 8 > > s_ofdmRatesBpsList
 OFDM rates in bits per second for each bandwidth.
 
const std::map< MHz_u, WifiChannelListTypesecondaryChannels
 map a given secondary channel width to its channel list type
 
static constexpr uint16_t SEQNO_SPACE_HALF_SIZE = SEQNO_SPACE_SIZE / 2
 Size of the half the space of sequence numbers (used to determine old packets)
 
static constexpr uint16_t SEQNO_SPACE_SIZE = 4096
 Size of the space of sequence numbers.
 
const uint32_t SHIFT = 16
 Number of places to shift WifiPpdu UID values, when generating unique IDs.
 
static const TwoRaySpectrumPropagationLossModel::FtrParamsLookupTable SIM_PARAMS_TO_FTR_PARAMS_TABLE
 Lookup table associating the simulation parameters to the corresponding fitted FTR parameters.
 
static constexpr uint8_t SINGLE_LINK_OP_ID = 0
 Link ID for single link operations (helps tracking places where correct link ID is to be used to support multi-link operations)
 
static const double SNR_PRECISION = 2
 precision for SNR
 
static const double SpectralEfficiencyForCqi [16]
 Table of CQI index and its spectral efficiency.
 
static const double SpectralEfficiencyForCqi [16]
 Spectral efficiency for CQI table.
 
static const double SpectralEfficiencyForMcs [32]
 Table of MCS index and its spectral efficiency.
 
Ptr< SpectrumModelSpectrumModel300Khz300GhzLog
 Spectrum model logger for frequencies between 300 Khz 300 Ghz.
 
Ptr< SpectrumModelSpectrumModelIsm2400MhzRes1Mhz
 Spectrum model logger for frequencies in the 2.4 GHz ISM band with 1 MHz resolution.
 
const uint32_t SPF_INFINITY = 0xffffffff
 "infinite" distance between nodes
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_NTN_DenseUrban_LOS
 The square root matrix for NTN Dense Urban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_NTN_DenseUrban_NLOS
 The square root matrix for NTN Dense Urban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_NTN_Rural_LOS
 The square root matrix for NTN Rural LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-7 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static const std::map< int, std::array< std::array< double, 6 >, 6 > > sqrtC_NTN_Rural_NLOS_Ka
 The square root matrix for NTN Rural NLOS Ka Band, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-8b and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static const std::map< int, std::array< std::array< double, 6 >, 6 > > sqrtC_NTN_Rural_NLOS_S
 The square root matrix for NTN Rural NLOS S Band, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-8a and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_NTN_Suburban_LOS
 The square root matrix for NTN Suburban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-5 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_NTN_Suburban_NLOS
 The square root matrix for NTN Suburban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-6 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_NTN_Urban_LOS
 The square root matrix for NTN Urban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-3 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static const std::map< int, std::array< std::array< double, 6 >, 6 > > sqrtC_NTN_Urban_NLOS
 The square root matrix for NTN Urban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-4 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_office_LOS
 The square root matrix for Indoor-Office LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_office_NLOS
 The square root matrix for Indoor-Office NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_RMa_LOS
 The square root matrix for RMa LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_RMa_NLOS
 The square root matrix for RMa NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_RMa_O2I
 The square root matrix for RMa O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_UMa_LOS
 The square root matrix for UMa LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_UMa_NLOS
 The square root matrix for UMa NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_UMa_O2I
 The square root matrix for UMa O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 7 >, 7 > sqrtC_UMi_LOS
 The square root matrix for UMi LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_UMi_NLOS
 The square root matrix for UMi NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static constexpr std::array< std::array< double, 6 >, 6 > sqrtC_UMi_O2I
 The square root matrix for UMi O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].
 
static const uint8_t SRS_ENTRIES = 9
 Number of distinct SRS periodicity plus one.
 
ns3::LteRlcHeaderTestSuite staticLteRlcHeaderTestSuiteInstance
 the test suite
 
static constexpr uint16_t SU_STA_ID = 65535
 STA_ID to identify a single user (SU)
 
const uint32_t SWAPPED_MAGIC = 0xd4c3b2a1
 Looks this way if byte swapping is required.
 
static const double TABLED_BASED_ERROR_MODEL_PRECISION = 1e-5
 precision for PER
 
const uint8_t TCP_PROT_NUMBER = 6
 TCP Protocol number.
 
static const int TdBetType0AllocationRbg [4]
 TDBET type 0 allocation RBG.
 
static const int TdMtType0AllocationRbg [4]
 TDMT type 0 allocation RBG.
 
static const int TdTbfqType0AllocationRbg [4]
 TDTBFQ type 0 allocation RBG.
 
static const double TOLERANCE = 1e-6
 Tolerance used to check reciprocal of two numbers.
 
static const int TransportBlockSizeTable [110][27]
 Table of number of physical resource blocks (NPRB), TBS index (ITBS), and their associated transport block size.
 
static const int TtaType0AllocationRbg [4]
 TTA type 0 allocation RBG.
 
static const int Type0AllocationRbg [4]
 Type 0 RBG allocation.
 
static const int Type0AllocationRbg [4]
 Type 0 allocation RBG.
 
const uint8_t UDP_PROT_NUMBER = 17
 UDP Protocol number.
 
const Time UE_MEASUREMENT_REPORT_DELAY = MicroSeconds(1)
 Artificial delay of UE measurements procedure.
 
static const Time UL_DATA_DURATION = NanoSeconds(1e6 - 71429 - 1)
 Duration of the data portion of a UL subframe.
 
static const Time UL_SRS_DELAY_FROM_SUBFRAME_START = NanoSeconds(1e6 - 71429)
 Delay from subframe start to transmission of SRS.
 
static const Time UL_SRS_DURATION = NanoSeconds(71429 - 1)
 duration of SRS portion of UL subframe = 1 symbol for SRS -1ns as margin to avoid overlapping simulator events
 
static constexpr uint32_t UNINITIALIZED = 0x66666666U
 Value of a not-yet-initialized IPv4 address, corresponding to 102.102.102.102.
 
static const uint8_t VERSION = 2
 GTPv2-C protocol version number.
 
const uint16_t VERSION_MAJOR = 2
 Major version of supported pcap file format.
 
const uint16_t VERSION_MINOR = 4
 Minor version of supported pcap file format.
 
static constexpr uint8_t WAIT_FOR_RXSTART_DELAY_USEC = 52
 Additional time (exceeding 20 us) to wait for a PHY-RXSTART.indication when the PHY is decoding a PHY header.
 
constexpr FrequencyRange WHOLE_WIFI_SPECTRUM = {2401, 7125}
 Identifier for the frequency range covering the whole wifi spectrum.
 
constexpr uint8_t WIFI_DEFAULT_EHT_MAX_NSS = 1
 Default max Tx/Rx NSS.
 
constexpr uint8_t WIFI_DEFAULT_EHT_OP_DIS_SUBCH_BM_PRESENT = 0
 Default Disabled Subch Bitmap Present.
 
constexpr uint8_t WIFI_DEFAULT_EHT_OP_INFO_PRESENT = 0
 Default EHT Operation Info Present.
 
constexpr uint8_t WIFI_DEFAULT_EHT_OP_PE_DUR = 0
 Default PE Duration.
 
constexpr uint8_t WIFI_DEFAULT_GRP_BU_EXP = 0
 Default Group Addressed BU Exponent.
 
constexpr uint8_t WIFI_DEFAULT_GRP_BU_IND_LIMIT = 0
 Default Group Addressed BU Indication Limit.
 
constexpr uint16_t WIFI_EHT_BASIC_MCS_NSS_SET_SIZE_B = 4
 IEEE 802.11be D2.0 Figure 9-1002ai.
 
constexpr uint16_t WIFI_EHT_DISABLED_SUBCH_BM_SIZE_B = 2
 IEEE 802.11be D2.0 Figure 9-1002c.
 
constexpr uint8_t WIFI_EHT_MAX_MCS_INDEX = 13
 IEEE 802.11be D2.0 Figure 9-1002ai.
 
constexpr uint8_t WIFI_EHT_MAX_NSS_CONFIGURABLE = 8
 Max NSS configurable, 802.11be D2.0 Table 9-401m.
 
constexpr uint16_t WIFI_EHT_OP_INFO_BASIC_SIZE_B = 3
 IEEE 802.11be D2.0 Figure 9-1002c.
 
constexpr uint16_t WIFI_EHT_OP_PARAMS_SIZE_B = 1
 IEEE 802.11be D2.0 Figure 9-1002b.
 
constexpr uint8_t WIFI_IE_ELEMENT_ID_EXT_SIZE = 1
 Size in bytes of the Element ID Extension field (IEEE 802.11-2020 9.4.2.1 General)
 
constexpr uint16_t WIFI_LINK_MAPPING_PRESENCE_IND_SIZE_B = 1
 size in bytes of the Link Mapping Presence Indicator field (IEEE 802.11be D2.0 9.4.2.314)
 
static constexpr uint8_t WIFI_LINKID_UNDEFINED = 0xff
 Invalid link identifier.
 
static const uint16_t WIFI_MAC_FCS_LENGTH = 4
 The length in octets of the IEEE 802.11 MAC FCS field.
 
constexpr size_t WIFI_MAX_NUM_HE_SIGB_CONTENT_CHANNELS = 2
 HE SIG-B Content Channels.
 
constexpr FrequencyRange WIFI_SPECTRUM_2_4_GHZ = {2401, 2483}
 Identifier for the frequency range covering the wifi spectrum in the 2.4 GHz band.
 
constexpr FrequencyRange WIFI_SPECTRUM_5_GHZ = {5170, 5915}
 Identifier for the frequency range covering the wifi spectrum in the 5 GHz band.
 
constexpr FrequencyRange WIFI_SPECTRUM_6_GHZ = {5945, 7125}
 Identifier for the frequency range covering the wifi spectrum in the 6 GHz band.
 
constexpr uint16_t WIFI_TID_TO_LINK_MAPPING_CONTROL_BASIC_SIZE_B
 size in bytes of the TID-To-Link Control field with default link mapping
 
const Time WIFI_TU = MicroSeconds(WIFI_TU_US)
 Wi-Fi Time Unit (see IEEE 802.11-2020 sec. 3.1)
 
constexpr int WIFI_TU_US = 1024
 Wi-Fi Time Unit value in microseconds (see IEEE 802.11-2020 sec.
 
const std::map< AcIndex, WifiAcwifiAcList
 Map containing the four ACs in increasing order of priority (according to Table 10-1 "UP-to-AC Mappings" of 802.11-2016)
 
const std::map< WifiStandard, std::list< WifiPhyBand > > wifiStandards
 map a given standard configured by the user to the allowed PHY bands
 
static constexpr auto WIFI_TID_TO_LINK_MAPPING_NOT_SUPPORTED
 Deprecated link mapping support enums.
 
static constexpr auto WIFI_TID_TO_LINK_MAPPING_SAME_LINK_SET
 
static constexpr auto WIFI_TID_TO_LINK_MAPPING_ANY_LINK_SET
 

Detailed Description

Every class exported by the ns3 library is enclosed in the ns3 namespace.

ns3 namespace

The implementation of the public static-based API which calls into the private implementation through the simulation singleton.

Typedef Documentation

◆ ampere_u

ampere weak type

Definition at line 33 of file wifi-units.h.

◆ AssocReqRefVariant

Initial value:
std::variant<std::reference_wrapper<MgtAssocRequestHeader>,
std::reference_wrapper<MgtReassocRequestHeader>>

variant holding a reference to a (Re)Association Request

Definition at line 48 of file ap-wifi-mac.h.

◆ AssocRequestElems

Initial value:
std::tuple<Ssid,
SupportedRates,
std::optional<ExtendedSupportedRatesIE>,
std::optional<HtCapabilities>,
std::optional<ExtendedCapabilities>,
std::optional<VhtCapabilities>,
std::optional<HeCapabilities>,
std::optional<He6GhzBandCapabilities>,
std::optional<MultiLinkElement>,
std::optional<EhtCapabilities>,
std::vector<TidToLinkMapping>>

List of Information Elements included in Association Request frames.

Definition at line 115 of file mgt-headers.h.

◆ AssocResponseElems

Initial value:
std::tuple<SupportedRates,
std::optional<ExtendedSupportedRatesIE>,
std::optional<EdcaParameterSet>,
std::optional<HtCapabilities>,
std::optional<HtOperation>,
std::optional<ExtendedCapabilities>,
std::optional<VhtCapabilities>,
std::optional<VhtOperation>,
std::optional<HeCapabilities>,
std::optional<HeOperation>,
std::optional<MuEdcaParameterSet>,
std::optional<He6GhzBandCapabilities>,
std::optional<MultiLinkElement>,
std::optional<EhtCapabilities>,
std::optional<EhtOperation>,
std::vector<TidToLinkMapping>>

List of Information Elements included in Association Response frames.

Definition at line 128 of file mgt-headers.h.

◆ Bands

typedef std::vector<BandInfo> ns3::Bands

Container of BandInfo.

Definition at line 49 of file spectrum-model.h.

◆ Bvec

typedef std::vector<bool> ns3::Bvec

boolean vector typedef

Definition at line 18 of file bvec.h.

◆ CallbackComponentVector

typedef std::vector<std::shared_ptr<CallbackComponentBase> > ns3::CallbackComponentVector

Vector of callback components.

Definition at line 215 of file callback.h.

◆ ComplexMatrixArray

using ns3::ComplexMatrixArray = MatrixArray<std::complex<double>>

Create an alias for MatrixArray using complex type.

Definition at line 280 of file matrix-array.h.

◆ CQI_value

typedef uint8_t ns3::CQI_value

CQI value typedef.

Definition at line 79 of file cqa-ff-mac-scheduler.cc.

◆ DataCalculatorList

List of Ptrs to DataCalculator objects.

Definition at line 27 of file data-collector.h.

◆ dB_u

using ns3::dB_u = double

dB weak type

Definition at line 28 of file wifi-units.h.

◆ dBm_per_Hz_u

dBm/Hz weak type

Definition at line 37 of file wifi-units.h.

◆ dBm_per_MHz_u

dBm/MHz weak type

Definition at line 38 of file wifi-units.h.

◆ dBm_u

using ns3::dBm_u = double

dBm weak type

Definition at line 27 of file wifi-units.h.

◆ dBr_u

using ns3::dBr_u = dB_u

dBr weak type

Definition at line 29 of file wifi-units.h.

◆ dBW_u

using ns3::dBW_u = double

dBW weak type

Definition at line 26 of file wifi-units.h.

◆ degree_u

degree weak type (angle)

Definition at line 35 of file wifi-units.h.

◆ DlHarqProcessesBuffer_t

typedef std::vector<std::vector<Ptr<PacketBurst> > > ns3::DlHarqProcessesBuffer_t

DlHarqProcessesBuffer_t typedef.

Definition at line 41 of file lte-enb-mac.h.

◆ DlHarqProcessesDciBuffer_t

DL HARQ process DCI buffer vector.

Definition at line 39 of file ff-mac-scheduler.h.

◆ DlHarqProcessesStatus_t

using ns3::DlHarqProcessesStatus_t = std::vector<uint8_t>

DL HARQ process status vector.

Definition at line 33 of file ff-mac-scheduler.h.

◆ DlHarqProcessesTimer_t

using ns3::DlHarqProcessesTimer_t = std::vector<uint8_t>

DL HARQ process timer vector.

Definition at line 36 of file ff-mac-scheduler.h.

◆ DlHarqRlcPduListBuffer_t

Vector of the 8 HARQ processes per UE.

Definition at line 45 of file ff-mac-scheduler.h.

◆ DoubleMap

typedef std::map<ImsiLcidPair_t, double> ns3::DoubleMap

Container: (IMSI, LCID) pair, double.

Definition at line 35 of file radio-bearer-stats-calculator.h.

◆ DoubleMatrixArray

Create an alias for MatrixArray using double type.

Definition at line 277 of file matrix-array.h.

◆ expectedTbs_t

typedef std::map<TbId_t, tbInfo_t> ns3::expectedTbs_t

expectedTbs_t typedef

Definition at line 73 of file lte-spectrum-phy.h.

◆ FlowIdMap

Container: (IMSI, LCID) pair, LteFlowId_t.

Definition at line 37 of file radio-bearer-stats-calculator.h.

◆ GenericPhyRxEndErrorCallback

This method is used by the PHY to notify the MAC that a previously started RX attempt has terminated without success.

Definition at line 50 of file generic-phy.h.

◆ GenericPhyRxEndOkCallback

This method is used by the PHY to notify the MAC that a previously started RX attempt has been successfully completed.

Parameters
packetthe received Packet

Definition at line 58 of file generic-phy.h.

◆ GenericPhyRxStartCallback

This method is used by the PHY to notify the MAC that a RX attempt is being started, i.e., a valid signal has been recognized by the PHY.

Definition at line 44 of file generic-phy.h.

◆ GenericPhyTxEndCallback

this method is invoked by the PHY to notify the MAC that the transmission of a given packet has been completed.

Parameters
packetthe Packet whose TX has been completed.

Definition at line 36 of file generic-phy.h.

◆ GenericPhyTxStartCallback

This method allows the MAC to instruct the PHY to start a transmission of a given packet.

Parameters
packetthe Packet to be transmitted
Returns
this method returns false if the PHY will start TX, true if the PHY refuses to start the TX. If false, the MAC layer will expect that GenericPhyTxEndCallback is invoked at some point later.

Definition at line 28 of file generic-phy.h.

◆ HarqProcessInfoList_t

HarqProcessInfoList_t typedef.

Definition at line 33 of file lte-harq-phy.h.

◆ HeRuBands

Map a spectrum band associated with an RU to the RU specification.

Definition at line 36 of file spectrum-wifi-phy.h.

◆ HOL_group

typedef int ns3::HOL_group

HOL group typedef.

Definition at line 83 of file cqa-ff-mac-scheduler.cc.

◆ Hz_u

using ns3::Hz_u = double

Hz weak type.

Definition at line 30 of file wifi-units.h.

◆ InterfaceFileMapIpv4

Ipv4/interface and Pcap file wrapper container.

Definition at line 42 of file click-internet-stack-helper.cc.

◆ InterfaceFileMapIpv6

Ipv6/interface and Pcap file wrapper container.

Definition at line 96 of file internet-stack-helper.cc.

◆ InterfacePairIpv4

typedef std::pair< uint32_t, uint32_t > ns3::InterfacePairIpv4

Ipv4/interface pair.

Definition at line 41 of file click-internet-stack-helper.cc.

◆ InterfacePairIpv6

Ipv6/interface pair.

Definition at line 94 of file internet-stack-helper.cc.

◆ InterfaceStreamMapIpv4

Ipv4/interface and output stream container.

Definition at line 43 of file click-internet-stack-helper.cc.

◆ InterfaceStreamMapIpv6

Ipv6/interface and output stream container.

Definition at line 98 of file internet-stack-helper.cc.

◆ IntMatrixArray

Create an alias for MatrixArray using int type.

Definition at line 274 of file matrix-array.h.

◆ joule_u

joule weak type

Definition at line 36 of file wifi-units.h.

◆ LteChunkProcessorCallback

Chunk processor callback typedef.

Definition at line 27 of file lte-chunk-processor.h.

◆ LtePhyDlHarqFeedbackCallback

This method is used by the LteSpectrumPhy to notify the PHY about the status of a certain DL HARQ process.

Definition at line 121 of file lte-spectrum-phy.h.

◆ LtePhyRxCtrlEndErrorCallback

This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX of a control frame attempt has terminated without success.

Definition at line 109 of file lte-spectrum-phy.h.

◆ LtePhyRxCtrlEndOkCallback

This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX of a control frame attempt has been successfully completed.

Parameters
packetthe received Packet

Definition at line 102 of file lte-spectrum-phy.h.

◆ LtePhyRxDataEndErrorCallback

This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX attempt has terminated without success.

Definition at line 86 of file lte-spectrum-phy.h.

◆ LtePhyRxDataEndOkCallback

This method is used by the LteSpectrumPhy to notify the PHY that a previously started RX attempt has been successfully completed.

Parameters
packetthe received Packet

Definition at line 93 of file lte-spectrum-phy.h.

◆ LtePhyRxPssCallback

typedef Callback<void, uint16_t, Ptr<SpectrumValue> > ns3::LtePhyRxPssCallback

This method is used by the LteSpectrumPhy to notify the UE PHY that a PSS has been received.

Definition at line 115 of file lte-spectrum-phy.h.

◆ LtePhyUlHarqFeedbackCallback

This method is used by the LteSpectrumPhy to notify the PHY about the status of a certain UL HARQ process.

Definition at line 127 of file lte-spectrum-phy.h.

◆ McsGroupData

typedef std::vector<GroupInfo> ns3::McsGroupData

Data structure for a table of groups.

Each group is of type GroupInfo. A vector of a GroupInfo.

Definition at line 153 of file minstrel-ht-wifi-manager.h.

◆ MetadataList

typedef std::list<std::pair<std::string, std::string> > ns3::MetadataList

List of pairs of strings representing metadata.

Definition at line 31 of file data-collector.h.

◆ meter_u

meter weak type

Definition at line 32 of file wifi-units.h.

◆ MHz_u

using ns3::MHz_u = double

MHz weak type.

Definition at line 31 of file wifi-units.h.

◆ MinstrelHtRate

Data structure for a Minstrel Rate table.

A vector of a struct MinstrelHtRateInfo.

Definition at line 130 of file minstrel-ht-wifi-manager.h.

◆ MinstrelMcsGroups

typedef std::vector<McsGroup> ns3::MinstrelMcsGroups

Data structure for a table of group definitions.

A vector of McsGroups.

Definition at line 87 of file minstrel-ht-wifi-manager.h.

◆ MinstrelRate

typedef std::vector<RateInfo> ns3::MinstrelRate

Data structure for a Minstrel Rate table A vector of a struct RateInfo.

Definition at line 60 of file minstrel-wifi-manager.h.

◆ mWatt_u

mWatt weak type

Definition at line 24 of file wifi-units.h.

◆ NixBits_t

typedef std::vector<uint32_t> ns3::NixBits_t

typedef for the nixVector

Definition at line 19 of file nix-vector.cc.

◆ NodePrinter

typedef void(* ns3::NodePrinter) (std::ostream &os)

Function signature for prepending the node id to a log message.

Parameters
[in,out]osThe output stream to print on.

Definition at line 29 of file node-printer.h.

◆ ObjectMapValue

ObjectMapValue is an alias for ObjectPtrContainerValue.

Definition at line 29 of file object-map.h.

◆ ObjectVectorValue

ObjectVectorValue is an alias for ObjectPtrContainerValue.

Definition at line 29 of file object-vector.h.

◆ Priomap

typedef std::array<uint16_t, 16> ns3::Priomap

Priority map.

Definition at line 20 of file prio-queue-disc.h.

◆ ProbeRequestElems

Initial value:
std::tuple<Ssid,
SupportedRates,
std::optional<ExtendedSupportedRatesIE>,
std::optional<HtCapabilities>,
std::optional<ExtendedCapabilities>,
std::optional<VhtCapabilities>,
std::optional<HeCapabilities>,
std::optional<He6GhzBandCapabilities>,
std::optional<EhtCapabilities>>

List of Information Elements included in Probe Request frames.

Definition at line 82 of file mgt-headers.h.

◆ ProbeResponseElems

Initial value:
std::tuple<Ssid,
SupportedRates,
std::optional<DsssParameterSet>,
std::optional<ErpInformation>,
std::optional<ExtendedSupportedRatesIE>,
std::optional<EdcaParameterSet>,
std::optional<HtCapabilities>,
std::optional<HtOperation>,
std::optional<ExtendedCapabilities>,
std::optional<VhtCapabilities>,
std::optional<VhtOperation>,
std::optional<ReducedNeighborReport>,
std::optional<HeCapabilities>,
std::optional<HeOperation>,
std::optional<MuEdcaParameterSet>,
std::optional<He6GhzBandCapabilities>,
std::optional<MultiLinkElement>,
std::optional<EhtCapabilities>,
std::optional<EhtOperation>,
std::vector<TidToLinkMapping>>

List of Information Elements included in Probe Response frames.

Definition at line 93 of file mgt-headers.h.

◆ RBG_index

typedef int ns3::RBG_index

RBG index typedef.

Definition at line 81 of file cqa-ff-mac-scheduler.cc.

◆ RlcPduList_t

using ns3::RlcPduList_t = std::vector<std::vector<RlcPduListElement_s>>

Vector of the LCs and layers per UE.

Definition at line 42 of file ff-mac-scheduler.h.

◆ RraaThresholdsTable

typedef std::vector<std::pair<WifiRraaThresholds, WifiMode> > ns3::RraaThresholdsTable

List of thresholds for each mode.

Definition at line 32 of file rraa-wifi-manager.h.

◆ RrpaaProbabilitiesTable

typedef std::vector<std::vector<double> > ns3::RrpaaProbabilitiesTable

List of probabilities.

Definition at line 61 of file rrpaa-wifi-manager.h.

◆ RrpaaThresholdsTable

typedef std::vector<std::pair<WifiRrpaaThresholds, WifiMode> > ns3::RrpaaThresholdsTable

List of thresholds for each mode.

Definition at line 56 of file rrpaa-wifi-manager.h.

◆ RuAllocation

using ns3::RuAllocation = std::vector<uint8_t>

8 bit RU_ALLOCATION per 20 MHz

Definition at line 55 of file wifi-tx-vector.h.

◆ RxErrorCallback

typedef Callback<void, Ptr<const WifiPsdu> > ns3::RxErrorCallback

Callback if PSDU unsuccessfuly received.

arg1: PSDU received unsuccessfuly

Definition at line 54 of file wifi-phy-state-helper.h.

◆ RxOkCallback

typedef Callback<void, Ptr<const WifiPsdu>, RxSignalInfo, WifiTxVector, std::vector<bool> > ns3::RxOkCallback

Callback if PSDU successfully received (i.e.

if aggregate, it means that at least one MPDU of the A-MPDU was received, considering that the per-MPDU reception status is also provided).

arg1: PSDU received successfully arg2: info on the received signal (

See also
RxSignalInfo) arg3: TXVECTOR of PSDU arg4: vector of per-MPDU status of reception.

Definition at line 48 of file wifi-phy-state-helper.h.

◆ RxPowerWattPerChannelBand

A map of the received power for each band.

Definition at line 45 of file phy-entity.h.

◆ SampleRate

typedef std::vector<std::vector<uint8_t> > ns3::SampleRate

Data structure for a Sample Rate table A vector of a vector uint8_t.

Definition at line 65 of file minstrel-wifi-manager.h.

◆ SeedManager

Alias for compatibility.

Definition at line 104 of file rng-seed-manager.h.

◆ SnrPerTable

typedef std::vector<std::pair<dB_u , double > > ns3::SnrPerTable

Table of SNR and PER pairs.

Definition at line 34 of file error-rate-tables.h.

◆ SpectrumModelUid_t

Uid for SpectrumModels.

Definition at line 52 of file spectrum-model.h.

◆ StringVector

using ns3::StringVector = std::vector<std::string>

Return type of SplitString.

Definition at line 26 of file string.h.

◆ t_it_CQIToUE

typedef std::map<CQI_value,LteFlowId_t,bool(*)(uint8_t,uint8_t)>::iterator ns3::t_it_CQIToUE

CQI value map iterator typedef.

Definition at line 94 of file cqa-ff-mac-scheduler.cc.

◆ t_it_HOLGroupToRBGs

HOL group map iterator typedef.

Definition at line 98 of file cqa-ff-mac-scheduler.cc.

◆ t_it_HOLgroupToUEs

typedef std::map<HOL_group,std::set<LteFlowId_t>>::iterator ns3::t_it_HOLgroupToUEs

HOL group multi map iterator typedef.

Definition at line 103 of file cqa-ff-mac-scheduler.cc.

◆ t_it_RBGToCQIsSorted

typedef std::map<RBG_index,t_map_CQIToUE>::iterator ns3::t_it_RBGToCQIsSorted

RBG index map iterator typedef.

Definition at line 96 of file cqa-ff-mac-scheduler.cc.

◆ t_map_CQIToUE

typedef std::map<CQI_value, LteFlowId_t, bool (*)(uint8_t, uint8_t)> ns3::t_map_CQIToUE

CQI value map typedef.

Definition at line 86 of file cqa-ff-mac-scheduler.cc.

◆ t_map_HOLGroupToRBGs

HOL group map typedef.

Definition at line 90 of file cqa-ff-mac-scheduler.cc.

◆ t_map_HOLgroupToUEs

typedef std::multimap<HOL_group, std::set<LteFlowId_t>, bool (*)(int, int)> ns3::t_map_HOLgroupToUEs

HOL group map typedef.

Definition at line 101 of file cqa-ff-mac-scheduler.cc.

◆ t_map_RBGToCQIsSorted

RBG index map typedef.

Definition at line 88 of file cqa-ff-mac-scheduler.cc.

◆ TimePrinter

typedef void(* ns3::TimePrinter) (std::ostream &os)

Function signature for features requiring a time formatter, such as logging or ShowProgress.

A TimePrinter should write the current simulation time (Simulator::Now()) on the designated output stream.

Parameters
[in,out]osThe output stream to print on.

Definition at line 32 of file time-printer.h.

◆ TxTime

typedef std::map<WifiMode, Time> ns3::TxTime

Data structure to save transmission time calculations per rate.

Definition at line 28 of file minstrel-ht-wifi-manager.h.

◆ Uint32Map

Container: (IMSI, LCID) pair, uint32_t.

Definition at line 27 of file radio-bearer-stats-calculator.h.

◆ Uint32StatsMap

Container: (IMSI, LCID) pair, uint32_t calculator.

Definition at line 31 of file radio-bearer-stats-calculator.h.

◆ Uint64Map

typedef std::map<ImsiLcidPair_t, uint64_t> ns3::Uint64Map

Container: (IMSI, LCID) pair, uint64_t.

Definition at line 29 of file radio-bearer-stats-calculator.h.

◆ Uint64StatsMap

Container: (IMSI, LCID) pair, uint64_t calculator.

Definition at line 33 of file radio-bearer-stats-calculator.h.

◆ UlHarqProcessesDciBuffer_t

UL HARQ process DCI buffer vector.

Definition at line 48 of file ff-mac-scheduler.h.

◆ UlHarqProcessesStatus_t

using ns3::UlHarqProcessesStatus_t = std::vector<uint8_t>

UL HARQ process status vector.

Definition at line 51 of file ff-mac-scheduler.h.

◆ Values

typedef std::vector<double> ns3::Values

Container for element values.

Definition at line 24 of file spectrum-value.h.

◆ volt_u

volt weak type

Definition at line 34 of file wifi-units.h.

◆ Watt_u

Watt weak type.

Definition at line 25 of file wifi-units.h.

◆ WifiAddressTidPair

typedef std::pair<Mac48Address, uint8_t> ns3::WifiAddressTidPair

(MAC address, TID) pair

Definition at line 25 of file qos-utils.h.

◆ WifiConstPsduMap

typedef std::unordered_map< uint16_t, Ptr< const WifiPsdu > > ns3::WifiConstPsduMap

Map of const PSDUs indexed by STA-ID.

Definition at line 34 of file he-frame-exchange-manager.h.

◆ WifiContainerQueueId

Initial value:
std::
tuple<WifiContainerQueueType, WifiReceiverAddressType, Mac48Address, std::optional<uint8_t>>

Tuple (queue type, receiver address type, Address, TID) identifying a container queue.

Note
that Address has a different meaning depending on container queue type:
  • for container queue types holding unicast frames, Address is the Receiver Address (RA) of the frames stored in the queue. For 11be MLDs, it is expected that:
    • the RA of unicast management frames are link addresses (indicating the link on which they must be sent)
    • the RA of unicast QoS data frames are MLD addresses (indicating that they can be sent on any link)
    • if the RA of a unicast control frame is a link address, that control frame can only be sent on the corresponding link; if the RA is an MLD address, that control frame can be sent on any link
  • for container queue types holding broadcast frames, Address is the Transmitter Address (TA) of the frames stored in the queue. For 11be MLDs, it is expected that:
    • the TA of broadcast management frames are link addresses (indicating the link on which they must be sent)
    • the TA of broadcast QoS data frames are MLD addresses (indicating that they can be sent on any link)
    • if the TA of a broadcast control frame is a link address, that control frame can only be sent on the corresponding link; if the TA is an MLD address, that control frame can be sent on any link

The TID is only specified for container queue types holding QoS data frames.

Definition at line 67 of file wifi-mac-queue-container.h.

◆ WifiInformationElementId

This type is used to represent an Information Element ID.

An enumeration would be tidier, but doesn't provide for the inheritance that is currently preferable to cleanly support pre-standard modules such as mesh. Maybe there is a nice way of doing this with a class.

Until such time as a better way of implementing this is dreamt up and applied, developers will need to be careful to avoid duplication of IE IDs in the defines below (and in files which declare "subclasses" of WifiInformationElement). Sorry.

Definition at line 34 of file wifi-information-element.h.

◆ WifiModeList

typedef std::vector<WifiMode> ns3::WifiModeList

In various parts of the code, folk are interested in maintaining a list of transmission modes.

The vector class provides a good basis for this, but we here add some syntactic sugar by defining a WifiModeList type, and a corresponding iterator.

Definition at line 251 of file wifi-mode.h.

◆ WifiModeListIterator

typedef WifiModeList::const_iterator ns3::WifiModeListIterator

An iterator for WifiModeList vector.

Definition at line 255 of file wifi-mode.h.

◆ WifiPsduMap

typedef std::unordered_map< uint16_t, Ptr< WifiPsdu > > ns3::WifiPsduMap

Map of PSDUs indexed by STA-ID.

Definition at line 30 of file he-frame-exchange-manager.h.

◆ WifiSpectrumBandFrequencies

typedef for a pair of start and stop frequencies to represent a band

Definition at line 48 of file wifi-phy-common.h.

◆ WifiSpectrumBandIndices

typedef for a pair of start and stop sub-band indices

Definition at line 26 of file wifi-spectrum-value-helper.h.

◆ WifiSpectrumBands

vector of spectrum bands

Definition at line 60 of file wifi-phy-common.h.

◆ WifiTidLinkMapping

using ns3::WifiTidLinkMapping = std::map<uint8_t, std::set<uint8_t>>

TID-indexed map of the link set to which the TID is mapped.

Definition at line 65 of file wifi-utils.h.

Enumeration Type Documentation

◆ anonymous enum

anonymous enum
Enumerator
COL_NODE 
COL_LAST 

Definition at line 15 of file model-node-creator.h.

◆ anonymous enum

anonymous enum
Enumerator
COL_TYPEID 
COL_LASTID 

Definition at line 17 of file model-typeid-creator.h.

◆ anonymous enum

anonymous enum

type enumeration

Enumerator
TYPE_MGT 
TYPE_CTL 
TYPE_DATA 

Definition at line 22 of file wifi-mac-header.cc.

◆ anonymous enum

anonymous enum

subtype enumeration

Enumerator
SUBTYPE_CTL_TRIGGER 
SUBTYPE_CTL_BEAMFORMINGRPOLL 
SUBTYPE_CTL_NDPANNOUNCE 
SUBTYPE_CTL_CTLFRAMEEXT 
SUBTYPE_CTL_CTLWRAPPER 
SUBTYPE_CTL_BACKREQ 
SUBTYPE_CTL_BACKRESP 
SUBTYPE_CTL_PSPOLL 
SUBTYPE_CTL_RTS 
SUBTYPE_CTL_CTS 
SUBTYPE_CTL_ACK 
SUBTYPE_CTL_END 
SUBTYPE_CTL_END_ACK 

Definition at line 30 of file wifi-mac-header.cc.

◆ CeBitmap_e

CeBitmap_e.

Enumerator
TA 
DRX 
CR 

Definition at line 63 of file ff-mac-common.h.

◆ HtProtectionType

HtProtectionType enumeration.

Enumerator
NO_PROTECTION 
NON_MEMBER_PROTECTION 
TWENTY_MHZ_PROTECTION 
MIXED_MODE_PROTECTION 

Definition at line 24 of file ht-operation.h.

◆ LogLevel

Logging severity classes and levels.

Enumerator
LOG_NONE 

No logging.

LOG_ERROR 

Serious error messages only.

LOG_LEVEL_ERROR 

LOG_ERROR and above.

LOG_WARN 

Warning messages.

LOG_LEVEL_WARN 

LOG_WARN and above.

LOG_INFO 

Something happened to change state.

LOG_LEVEL_INFO 

LOG_INFO and above.

LOG_FUNCTION 

Function tracing for non-trivial function calls.

LOG_LEVEL_FUNCTION 

LOG_FUNCTION and above.

LOG_LOGIC 

Debugging logs for key branches and decisions in a function.

LOG_LEVEL_LOGIC 

LOG_LOGIC and above.

LOG_DEBUG 

Full voluminous logging to support debugging.

LOG_LEVEL_DEBUG 

LOG_DEBUG and above.

LOG_ALL 

Print everything.

LOG_LEVEL_ALL 

Print everything.

LOG_PREFIX_FUNC 

Prefix all trace prints with function.

LOG_PREFIX_TIME 

Prefix all trace prints with simulation time.

LOG_PREFIX_NODE 

Prefix all trace prints with simulation node.

LOG_PREFIX_LEVEL 

Prefix all trace prints with log level (severity).

LOG_PREFIX_ALL 

All prefixes.

Definition at line 82 of file log.h.

◆ McsGroupType

Available MCS group types.

Enumerator
WIFI_MINSTREL_GROUP_HT 
WIFI_MINSTREL_GROUP_VHT 
WIFI_MINSTREL_GROUP_HE 

Definition at line 34 of file minstrel-ht-wifi-manager.h.

◆ NormalExtended_e

NormalExtended_e enumeration.

Enumerator
normal 
extended 

Definition at line 71 of file ff-mac-common.h.

◆ PbbAddressLength

Used in Messages to determine whether it contains IPv4 or IPv6 addresses.

Enumerator
IPV4 
IPV6 

Definition at line 34 of file packetbb.h.

◆ ReqType

Request type enumeration.

Enumerator
DATA 
UNICAST_POLLING 

Definition at line 28 of file ul-job.h.

◆ Result_e

Result_e enumeration.

Enumerator
SUCCESS 
FAILURE 

Definition at line 49 of file ff-mac-common.h.

◆ SetupRelease_e

SetupRelease_e enumeration.

Enumerator
setup 
release 

Definition at line 56 of file ff-mac-common.h.

◆ Table3gppParams

The enumerator used for code clarity when performing parameter assignment in GetThreeGppTable.

Enumerator
uLgDS 
sigLgDS 
uLgASD 
sigLgASD 
uLgASA 
sigLgASA 
uLgZSA 
sigLgZSA 
uLgZSD 
sigLgZSD 
uK 
sigK 
rTau 
uXpr 
sigXpr 
numOfCluster 
raysPerCluster 
cDS 
cASD 
cASA 
cZSA 
perClusterShadowingStd 

Definition at line 633 of file three-gpp-channel-model.cc.

◆ WifiCodeRate

enum ns3::WifiCodeRate : uint16_t

These constants define the various convolutional coding rates used for the OFDM transmission modes in the IEEE 802.11 standard.

DSSS (for example) rates which do not have an explicit coding stage in their generation should have this parameter set to WIFI_CODE_RATE_UNDEFINED.

Enumerator
WIFI_CODE_RATE_UNDEFINED 

undefined coding rate

WIFI_CODE_RATE_1_2 

1/2 coding rate

WIFI_CODE_RATE_2_3 

2/3 coding rate

WIFI_CODE_RATE_3_4 

3/4 coding rate

WIFI_CODE_RATE_5_6 

5/6 coding rate

WIFI_CODE_RATE_5_8 

5/8 coding rate

WIFI_CODE_RATE_13_16 

13/16 coding rate

WIFI_CODE_RATE_1_4 

1/4 coding rate

WIFI_CODE_RATE_13_28 

13/28 coding rate

WIFI_CODE_RATE_13_21 

13/21 coding rate

WIFI_CODE_RATE_52_63 

52/63 coding rate

WIFI_CODE_RATE_13_14 

13/14 coding rate

WIFI_CODE_RATE_7_8 

7/8 coding rate

Definition at line 112 of file wifi-phy-common.h.

◆ WifiContainerQueueType

enumeration of container queue types

Enumerator
WIFI_CTL_QUEUE 
WIFI_MGT_QUEUE 
WIFI_QOSDATA_QUEUE 
WIFI_DATA_QUEUE 

Definition at line 25 of file wifi-mac-queue-container.h.

◆ WifiDirection

enum class ns3::WifiDirection : uint8_t
strong

Wifi direction.

Values are those defined for the TID-to-Link Mapping Control Direction field in IEEE 802.11be D3.1 Figure 9-1002ap

Enumerator
DOWNLINK 
UPLINK 
BOTH_DIRECTIONS 

Definition at line 33 of file wifi-utils.h.

◆ WifiMacType

Combination of valid MAC header type/subtype.

Enumerator
WIFI_MAC_CTL_TRIGGER 
WIFI_MAC_CTL_CTLWRAPPER 
WIFI_MAC_CTL_PSPOLL 
WIFI_MAC_CTL_RTS 
WIFI_MAC_CTL_CTS 
WIFI_MAC_CTL_ACK 
WIFI_MAC_CTL_BACKREQ 
WIFI_MAC_CTL_BACKRESP 
WIFI_MAC_CTL_END 
WIFI_MAC_CTL_END_ACK 
WIFI_MAC_CTL_DMG_POLL 
WIFI_MAC_CTL_DMG_SPR 
WIFI_MAC_CTL_DMG_GRANT 
WIFI_MAC_CTL_DMG_CTS 
WIFI_MAC_CTL_DMG_DTS 
WIFI_MAC_CTL_DMG_SSW 
WIFI_MAC_CTL_DMG_SSW_FBCK 
WIFI_MAC_CTL_DMG_SSW_ACK 
WIFI_MAC_CTL_DMG_GRANT_ACK 
WIFI_MAC_MGT_BEACON 
WIFI_MAC_MGT_ASSOCIATION_REQUEST 
WIFI_MAC_MGT_ASSOCIATION_RESPONSE 
WIFI_MAC_MGT_DISASSOCIATION 
WIFI_MAC_MGT_REASSOCIATION_REQUEST 
WIFI_MAC_MGT_REASSOCIATION_RESPONSE 
WIFI_MAC_MGT_PROBE_REQUEST 
WIFI_MAC_MGT_PROBE_RESPONSE 
WIFI_MAC_MGT_AUTHENTICATION 
WIFI_MAC_MGT_DEAUTHENTICATION 
WIFI_MAC_MGT_ACTION 
WIFI_MAC_MGT_ACTION_NO_ACK 
WIFI_MAC_MGT_MULTIHOP_ACTION 
WIFI_MAC_DATA 
WIFI_MAC_DATA_CFACK 
WIFI_MAC_DATA_CFPOLL 
WIFI_MAC_DATA_CFACK_CFPOLL 
WIFI_MAC_DATA_NULL 
WIFI_MAC_DATA_NULL_CFACK 
WIFI_MAC_DATA_NULL_CFPOLL 
WIFI_MAC_DATA_NULL_CFACK_CFPOLL 
WIFI_MAC_QOSDATA 
WIFI_MAC_QOSDATA_CFACK 
WIFI_MAC_QOSDATA_CFPOLL 
WIFI_MAC_QOSDATA_CFACK_CFPOLL 
WIFI_MAC_QOSDATA_NULL 
WIFI_MAC_QOSDATA_NULL_CFPOLL 
WIFI_MAC_QOSDATA_NULL_CFACK_CFPOLL 
WIFI_MAC_EXTENSION_DMG_BEACON 

Definition at line 25 of file wifi-mac-header.h.

◆ WifiPhyState

enum class ns3::WifiPhyState
strong

The state of the PHY layer.

State enumeration

Enumerator
IDLE 

The PHY layer is IDLE.

CCA_BUSY 

The PHY layer has sense the medium busy through the CCA mechanism.

TX 

The PHY layer is sending a packet.

RX 

The PHY layer is receiving a packet.

SWITCHING 

The PHY layer is switching to other channel.

SLEEP 

The PHY layer is sleeping.

OFF 

The PHY layer is switched off.

Definition at line 23 of file wifi-phy-state.h.

◆ WifiReceiverAddressType

enumeration of frame directions

Enumerator
WIFI_UNICAST 
WIFI_BROADCAST 

Definition at line 34 of file wifi-mac-queue-container.h.

◆ WifiTidToLinkMappingNegSupport

enum class ns3::WifiTidToLinkMappingNegSupport : uint8_t
strong

TID-to-Link Mapping Negotiation Support.

Enumerator
NOT_SUPPORTED 
SAME_LINK_SET 
ANY_LINK_SET 

Definition at line 36 of file eht-configuration.h.

◆ WireState

Current state of the channel.

Enumerator
IDLE 

Channel is IDLE, no packet is being transmitted.

TRANSMITTING 

Channel is BUSY, a packet is being written by a net device.

PROPAGATING 

Channel is BUSY, packet is propagating to all attached net devices.

Definition at line 63 of file csma-channel.h.

Function Documentation

◆ Abs()

Time ns3::Abs ( const Time & time)
inline

Absolute value for Time.

Parameters
[in]timeThe Time value
Returns
The absolute value of the input.

Definition at line 1180 of file nstime.h.

◆ AddWifiMacTrailer()

void ns3::AddWifiMacTrailer ( Ptr< Packet > packet)

Add FCS trailer to a packet.

Parameters
packetthe packet to add a trailer to

Definition at line 117 of file wifi-utils.cc.

Referenced by ns3::MpduAggregator::Aggregate(), ns3::WifiPsdu::GetPacket(), and ns3::WifiMpdu::GetProtocolDataUnit().

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◆ AsciiLrWpanMacTransmitSinkWithContext()

static void ns3::AsciiLrWpanMacTransmitSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > p )
static

Output an ascii line representing the Transmit event (with context)

Parameters
streamthe output stream
contextthe context
pthe packet

Definition at line 33 of file lr-wpan-helper.cc.

References ns3::Time::As(), ns3::Simulator::Now(), and ns3::Time::S.

Referenced by ns3::LrWpanHelper::EnableAsciiInternal().

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◆ AsciiLrWpanMacTransmitSinkWithoutContext()

static void ns3::AsciiLrWpanMacTransmitSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > p )
static

Output an ascii line representing the Transmit event (without context)

Parameters
streamthe output stream
pthe packet

Definition at line 47 of file lr-wpan-helper.cc.

References ns3::Time::As(), ns3::Simulator::Now(), and ns3::Time::S.

Referenced by ns3::LrWpanHelper::EnableAsciiInternal().

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◆ AsciiPhyReceiveSinkWithContext()

static void ns3::AsciiPhyReceiveSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > p,
double snr,
WifiMode mode,
WifiPreamble preamble )
static

ASCII trace PHY receive sink with context.

Parameters
streamthe output stream
contextthe context name
pthe packet
snrthe SNR
modethe wifi mode
preamblethe wifi preamble

Definition at line 98 of file wifi-helper.cc.

References ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_FUNCTION.

Referenced by ns3::WifiPhyHelper::EnableAsciiInternal().

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◆ AsciiPhyReceiveSinkWithoutContext()

static void ns3::AsciiPhyReceiveSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > p,
double snr,
WifiMode mode,
WifiPreamble preamble )
static

ASCII trace PHY receive sink without context.

Parameters
streamthe output stream
pthe packet
snrthe SNR
modethe wifi mode
preamblethe wifi preamble

Definition at line 122 of file wifi-helper.cc.

References ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_FUNCTION.

Referenced by ns3::WifiPhyHelper::EnableAsciiInternal().

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◆ AsciiPhyRxOkEvent()

static void ns3::AsciiPhyRxOkEvent ( std::ostream * os,
std::string context,
Ptr< const Packet > packet,
double snr,
UanTxMode mode )
static

Ascii trace callback on successful packet reception.

Parameters
osThe output stream.
contextThe node and device ids.
packetThe received packet.
snrThe received signal to noise ratio.
modeThe channel transmission mode.

Definition at line 67 of file uan-helper.cc.

References ns3::Time::GetSeconds(), and ns3::Simulator::Now().

Referenced by ns3::UanHelper::EnableAscii().

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◆ AsciiPhyTransmitSinkWithContext()

static void ns3::AsciiPhyTransmitSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > p,
WifiMode mode,
WifiPreamble preamble,
uint8_t txLevel )
static

ASCII trace PHY transmit sink with context.

Parameters
streamthe output stream
contextthe context name
pthe packet
modethe wifi mode
preamblethe wifi preamble
txLevelthe transmit power level

Definition at line 50 of file wifi-helper.cc.

References ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_FUNCTION.

Referenced by ns3::WifiPhyHelper::EnableAsciiInternal().

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◆ AsciiPhyTransmitSinkWithoutContext()

static void ns3::AsciiPhyTransmitSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > p,
WifiMode mode,
WifiPreamble preamble,
uint8_t txLevel )
static

ASCII trace PHY transmit sink without context.

Parameters
streamthe output stream
pthe packet
modethe wifi mode
preamblethe wifi preamble
txLevelthe transmit power level

Definition at line 74 of file wifi-helper.cc.

References ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_FUNCTION.

Referenced by ns3::WifiPhyHelper::EnableAsciiInternal().

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◆ AsciiPhyTxEvent()

static void ns3::AsciiPhyTxEvent ( std::ostream * os,
std::string context,
Ptr< const Packet > packet,
double txPowerDb,
UanTxMode mode )
static

Ascii trace callback on Phy transmit events.

Parameters
osThe output stream.
contextThe node and device ids.
packetThe transmitted packet.
txPowerDbThe transmission power.
modeThe transmission mode.

Definition at line 48 of file uan-helper.cc.

References ns3::Time::GetSeconds(), and ns3::Simulator::Now().

Referenced by ns3::UanHelper::EnableAscii().

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◆ BufferToString()

std::string ns3::BufferToString ( uint8_t * buffer,
uint32_t len )

Convert a byte buffer to a string containing a hex representation of the buffer.

Make the string pretty by adding a colon (':') between the hex.

Parameters
bufferThe input buffer to be converted.
lenThe length of the input buffer.
Returns
A string containing a hex representation of the data in buffer.

Definition at line 26 of file encode-decode.cc.

Referenced by ns3::EmuFdNetDeviceHelper::CreateFileDescriptor(), ns3::NetmapNetDeviceHelper::CreateFileDescriptor(), and ns3::TapFdNetDeviceHelper::CreateFileDescriptor().

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◆ CalculateDistance() [1/2]

double ns3::CalculateDistance ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]aOne point
[in]bAnother point
Returns
The distance between a and b .

Definition at line 105 of file vector.cc.

◆ CalculateDistance() [2/2]

double ns3::CalculateDistance ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]aOne point
[in]bAnother point
Returns
The distance between a and b .

Definition at line 98 of file vector.cc.

Referenced by ns3::HexGridPositionAllocator::AddRing(), ns3::LteHelper::AttachToClosestEnb(), ns3::RandomWalk2dOutdoorMobilityModel::AvoidBuilding(), ns3::SteadyStateRandomWaypointMobilityModel::BeginWalk(), ns3::GeographicPositions::CartesianToGeographicCoordinates(), CartesianToGeoTestCase::DoRun(), ns3::ThreeGppV2vUrbanPropagationLossModel::GetAdditionalNlosvLoss(), anonymous_namespace{three-gpp-propagation-loss-model.cc}::GetBsUtDistancesAndHeights(), ns3::MobilityModel::GetDistanceFrom(), ns3::ThreeGppIndoorOfficePropagationLossModel::GetLossLos(), ns3::ThreeGppNTNDenseUrbanPropagationLossModel::GetLossLos(), ns3::ThreeGppNTNRuralPropagationLossModel::GetLossLos(), ns3::ThreeGppNTNSuburbanPropagationLossModel::GetLossLos(), ns3::ThreeGppNTNUrbanPropagationLossModel::GetLossLos(), ns3::ThreeGppUmiStreetCanyonPropagationLossModel::GetLossLos(), ns3::ThreeGppV2vHighwayPropagationLossModel::GetLossLos(), ns3::ThreeGppV2vUrbanPropagationLossModel::GetLossLos(), ns3::ThreeGppIndoorOfficePropagationLossModel::GetLossNlos(), ns3::ThreeGppNTNDenseUrbanPropagationLossModel::GetLossNlos(), ns3::ThreeGppNTNRuralPropagationLossModel::GetLossNlos(), ns3::ThreeGppNTNSuburbanPropagationLossModel::GetLossNlos(), ns3::ThreeGppNTNUrbanPropagationLossModel::GetLossNlos(), ns3::ThreeGppUmiStreetCanyonPropagationLossModel::GetLossNlos(), ns3::ThreeGppV2vUrbanPropagationLossModel::GetLossNlos(), ns3::RandomWalk2dOutdoorMobilityModel::IsLineClearOfBuildings(), ns3::RandomDirection2dMobilityModel::SetDirectionAndSpeed(), and ns3::SteadyStateRandomWaypointMobilityModel::SteadyStateBeginWalk().

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◆ CalculateDistanceSquared() [1/2]

double ns3::CalculateDistanceSquared ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]aOne point
[in]bAnother point
Returns
The distance between a and b .

Definition at line 119 of file vector.cc.

◆ CalculateDistanceSquared() [2/2]

double ns3::CalculateDistanceSquared ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]aOne point
[in]bAnother point
Returns
The distance between a and b .

Definition at line 112 of file vector.cc.

◆ cell_data_function_col_0()

void ns3::cell_data_function_col_0 ( GtkTreeViewColumn * col,
GtkCellRenderer * renderer,
GtkTreeModel * model,
GtkTreeIter * iter,
gpointer user_data )

This function includes the name of the object, pointer, vector or vector item in the first column.

Parameters
colPointer to the GtkTreeViewColumn
rendererPointer to the GtkCellRenderer
modelPointer to the GtkTreeModel
iterPointer to the GtkTreeIter
user_dataPointer to the data to be displayed (or modified)

Definition at line 54 of file display-functions.cc.

References COL_NODE, ns3::Object::GetInstanceTypeId(), ns3::TypeId::GetName(), ns3::ModelNode::index, ns3::ModelNode::name, ns3::ModelNode::NODE_ATTRIBUTE, ns3::ModelNode::NODE_OBJECT, ns3::ModelNode::NODE_POINTER, ns3::ModelNode::NODE_VECTOR, ns3::ModelNode::NODE_VECTOR_ITEM, ns3::ModelNode::object, and ns3::ModelNode::type.

Referenced by create_view().

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◆ cell_data_function_col_0_config_default()

void ns3::cell_data_function_col_0_config_default ( GtkTreeViewColumn * col,
GtkCellRenderer * renderer,
GtkTreeModel * model,
GtkTreeIter * iter,
gpointer user_data )

This function writes the attribute or typeid name in the column 0.

Parameters
colPointer to the GtkTreeViewColumn
rendererPointer to the GtkCellRenderer
modelPointer to the GtkTreeModel
iterPointer to the GtkTreeIter
user_dataPointer to the data to be displayed (or modified)

Definition at line 364 of file display-functions.cc.

References COL_NODE, ns3::TypeId::GetName(), ns3::ModelTypeid::name, ns3::ModelTypeid::NODE_ATTRIBUTE, ns3::ModelTypeid::NODE_TYPEID, ns3::ModelTypeid::tid, and ns3::ModelTypeid::type.

Referenced by create_view_config_default().

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◆ cell_data_function_col_1()

void ns3::cell_data_function_col_1 ( GtkTreeViewColumn * col,
GtkCellRenderer * renderer,
GtkTreeModel * model,
GtkTreeIter * iter,
gpointer user_data )

This function includes the name of the attribute or the editable value in the second column.

Parameters
colPointer to the GtkTreeViewColumn
rendererPointer to the GtkCellRenderer
modelPointer to the GtkTreeModel
iterPointer to the GtkTreeIter
user_dataPointer to the data to be displayed (or modified)

Definition at line 23 of file display-functions.cc.

References COL_NODE, ns3::ObjectBase::GetAttribute(), ns3::ModelNode::name, ns3::ModelNode::NODE_ATTRIBUTE, ns3::ModelNode::object, and ns3::ModelNode::type.

Referenced by create_view().

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◆ cell_data_function_col_1_config_default()

void ns3::cell_data_function_col_1_config_default ( GtkTreeViewColumn * col,
GtkCellRenderer * renderer,
GtkTreeModel * model,
GtkTreeIter * iter,
gpointer user_data )

This function writes data in the second column, this data is going to be editable if it is a NODE_ATTRIBUTE.

Parameters
colPointer to the GtkTreeViewColumn
rendererPointer to the GtkCellRenderer
modelPointer to the GtkTreeModel
iterPointer to the GtkTreeIter
user_dataPointer to the data to be displayed (or modified)

Definition at line 336 of file display-functions.cc.

References COL_TYPEID, ns3::ModelTypeid::defaultValue, ns3::ModelTypeid::NODE_ATTRIBUTE, and ns3::ModelTypeid::type.

Referenced by create_view_config_default().

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◆ cell_edited_callback()

void ns3::cell_edited_callback ( GtkCellRendererText * cell,
gchar * path_string,
gchar * new_text,
gpointer user_data )

This is the callback called when the value of an attribute is changed.

Parameters
cellthe changed cell
path_stringthe path
new_textthe updated text in the cell
user_datauser data

Definition at line 93 of file display-functions.cc.

References COL_NODE, ns3::ModelNode::name, ns3::ModelNode::NODE_ATTRIBUTE, NS_ASSERT, ns3::ModelNode::object, ns3::ObjectBase::SetAttribute(), and ns3::ModelNode::type.

Referenced by create_view().

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◆ cell_edited_callback_config_default()

void ns3::cell_edited_callback_config_default ( GtkCellRendererText * cell,
gchar * path_string,
gchar * new_text,
gpointer user_data )

This functions is called whenever there is a change in the value of an attribute If the input value is ok, it will be updated in the default value and in the GUI, otherwise, it won't be updated in both.

Parameters
cellthe changed cell
path_stringthe path
new_textthe updated text in the cell
user_datauser data

Definition at line 395 of file display-functions.cc.

References COL_NODE, ns3::ModelTypeid::defaultValue, ns3::TypeId::GetAttributeFullName(), ns3::ModelTypeid::index, ns3::ModelTypeid::NODE_ATTRIBUTE, NS_ASSERT, ns3::Config::SetDefaultFailSafe(), ns3::ModelTypeid::tid, and ns3::ModelTypeid::type.

Referenced by create_view_config_default().

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◆ cell_tooltip_callback()

gboolean ns3::cell_tooltip_callback ( GtkWidget * widget,
gint x,
gint y,
gboolean keyboard_tip,
GtkTooltip * tooltip,
gpointer user_data )

This function displays the tooltip for an object, pointer, vector item or an attribute.

Parameters
widgetis the display object
xis the x position
yis the y position
keyboard_tip
tooltipis the tooltip information to be displayed
user_data
Returns
false if the tooltip is not displayed

Definition at line 133 of file display-functions.cc.

References ns3::TypeId::AttributeInformation::checker, COL_NODE, get_col_number_from_tree_view_column(), ns3::ObjectBase::GetAttribute(), ns3::TypeId::GetAttribute(), ns3::TypeId::GetAttributeN(), ns3::Object::GetInstanceTypeId(), ns3::TypeId::GetName(), ns3::PointerValue::GetObject(), ns3::TypeId::GetParent(), ns3::TypeId::HasParent(), ns3::TypeId::AttributeInformation::help, ns3::ModelNode::name, ns3::TypeId::AttributeInformation::name, ns3::ModelNode::NODE_ATTRIBUTE, ns3::ModelNode::NODE_OBJECT, ns3::ModelNode::NODE_POINTER, ns3::ModelNode::NODE_VECTOR, ns3::ModelNode::NODE_VECTOR_ITEM, ns3::ModelNode::object, and ns3::ModelNode::type.

Referenced by create_view().

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◆ cell_tooltip_callback_config_default()

gboolean ns3::cell_tooltip_callback_config_default ( GtkWidget * widget,
gint x,
gint y,
gboolean keyboard_tip,
GtkTooltip * tooltip,
gpointer user_data )

This function is used to display a tooltip whenever the user puts the mouse over a type ID or an attribute.

It will give the type and the possible values of an attribute value and the type of the object for an attribute object or a typeID object

Parameters
widgetis the display object
xis the x position
yis the y position
keyboard_tip
tooltipis the tooltip information to be displayed
user_data
Returns
false if the tooltip is not displayed

Definition at line 432 of file display-functions.cc.

References ns3::TypeId::AttributeInformation::checker, COL_NODE, get_col_number_from_tree_view_column(), ns3::TypeId::GetAttribute(), ns3::TypeId::GetName(), ns3::TypeId::AttributeInformation::help, ns3::ModelTypeid::index, ns3::ModelTypeid::NODE_ATTRIBUTE, ns3::ModelTypeid::NODE_TYPEID, ns3::ModelTypeid::tid, and ns3::ModelTypeid::type.

Referenced by create_view_config_default().

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◆ clean_model_callback()

gboolean ns3::clean_model_callback ( GtkTreeModel * model,
GtkTreePath * path,
GtkTreeIter * iter,
gpointer data )

Delete the tree model contents.

Parameters
modelthe GtkTreeModel
paththe GtkTreePath
itera GtkTreeIter
datauser data
Returns
true if an error occurred.

Definition at line 318 of file display-functions.cc.

References COL_NODE.

Referenced by ns3::GtkConfigStore::ConfigureAttributes().

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◆ clean_model_callback_config_default()

gboolean ns3::clean_model_callback_config_default ( GtkTreeModel * model,
GtkTreePath * path,
GtkTreeIter * iter,
gpointer data )

Delete the tree model contents.

Parameters
modelthe GtkTreeModel
paththe GtkTreePath
itera GtkTreeIter
datauser data
Returns
true if an error occurred.

Definition at line 699 of file display-functions.cc.

References COL_TYPEID.

Referenced by ns3::GtkConfigStore::ConfigureDefaults().

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◆ CoDelGetTime() [1/2]

static int64_t ns3::CoDelGetTime ( )
static

Returns the current time translated in CoDel time representation.

Returns
the current time

Definition at line 129 of file cobalt-queue-disc.cc.

References ns3::Time::GetNanoSeconds(), and ns3::Simulator::Now().

Referenced by ns3::CobaltQueueDisc::DoDequeue(), ns3::CoDelQueueDisc::DoDequeue(), and ns3::CobaltQueueDisc::DoEnqueue().

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◆ CoDelGetTime() [2/2]

static uint32_t ns3::CoDelGetTime ( )
static

Returns the current time translated in CoDel time representation.

Returns
the current time

Definition at line 52 of file codel-queue-disc.cc.

References CODEL_SHIFT, ns3::Time::GetNanoSeconds(), and ns3::Simulator::Now().

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◆ CompleteConstruct()

template<typename T >
Ptr< T > ns3::CompleteConstruct ( T * object)
Template Parameters
T[deduced] The type of the Object to complete.
Parameters
[in]objectThe uninitialized object pointer.
Returns
The derived object.

Definition at line 599 of file object.h.

Referenced by CreateObject().

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◆ const_pointer_cast()

template<typename T1 , typename T2 >
Ptr< T1 > ns3::const_pointer_cast ( const Ptr< T2 > & p)

Return a copy of p with its stored pointer const casted from T2 to T1.

Template Parameters
T1[deduced] The type to return in a Ptr.
T2[deduced] The type of the underlying object.
Parameters
[in]pThe original const Ptr.
Returns
A non-const Ptr.

◆ ConstCast()

template<typename T1 , typename T2 >
Ptr< T1 > ns3::ConstCast ( const Ptr< T2 > & p)

Cast a Ptr.

Template Parameters
T1[deduced] The desired type to cast to.
T2[deduced] The type of the original Ptr.
Parameters
[in]pThe original Ptr.
Returns
The result of the cast.

Definition at line 573 of file ptr.h.

References PeekPointer().

Referenced by ComputeSnr(), ns3::tests::PtrTestCase::DoRun(), ns3::ThreeGppChannelConditionModel::GetQuantizedElevationAngle(), ns3::ThreeGppChannelModel::GetThreeGppTable(), ns3::aodv::RoutingProtocol::SendPacketFromQueue(), ns3::dsdv::RoutingProtocol::SendPacketFromQueue(), and GlobalPathlossDatabase::UpdatePathloss().

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◆ Copy()

template<typename T >
Ptr< T > ns3::Copy ( Ptr< T > object)

Return a deep copy of a Ptr.

Template Parameters
T[deduced] The type of the underlying object.
Parameters
[in]objectThe object Ptr to copy.
Returns
The copy.

Definition at line 604 of file ptr.h.

References PeekPointer().

Referenced by ns3::ConstantSpectrumPropagationLossModel::DoCalcRxPowerSpectralDensity(), ns3::FriisSpectrumPropagationLossModel::DoCalcRxPowerSpectralDensity(), ns3::TraceFadingLossModel::DoCalcRxPowerSpectralDensity(), ns3::lorawan::EndDeviceStatus::InsertReceivedPacket(), ns3::internal::MakeDoubleChecker(), ns3::internal::MakeIntegerChecker(), MakeSimpleAttributeChecker(), MakeTimeChecker(), ns3::internal::MakeUintegerChecker(), and ns3::MultiModelSpectrumChannel::StartTx().

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◆ CopyObject()

template<typename T >
Ptr< T > ns3::CopyObject ( Ptr< const T > object)
Template Parameters
T[deduced] The type of the Object being copied.
Parameters
[in]objectA pointer to the object to copy.
Returns
A copy of the input object.

This method invoke the copy constructor of the input object and returns the new instance.

Definition at line 581 of file object.h.

◆ CqaGroupDescComparator()

bool ns3::CqaGroupDescComparator ( int key1,
int key2 )

CGA group comparator function.

Parameters
key1the first item
key2the second item
Returns
true if the first item is > the second item

Definition at line 73 of file cqa-ff-mac-scheduler.cc.

Referenced by ns3::CqaFfMacScheduler::DoSchedDlTriggerReq().

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◆ CqaKeyDescComparator()

bool ns3::CqaKeyDescComparator ( uint16_t key1,
uint16_t key2 )

CQA key comparator.

Parameters
key1the first item
key2the second item
Returns
true if the first item > the second item

Definition at line 115 of file cqa-ff-mac-scheduler.cc.

◆ CQIValueDescComparator()

bool ns3::CQIValueDescComparator ( uint8_t key1,
uint8_t key2 )

CQI value comparator function.

Parameters
key1the first item
key2the second item
Returns
true if the first item is > the second item

Definition at line 61 of file cqa-ff-mac-scheduler.cc.

◆ CRC32Calculate()

uint32_t ns3::CRC32Calculate ( const uint8_t * data,
int length )

Calculates the CRC-32 for a given input.

Parameters
databuffer to calculate the checksum for
lengththe length of the buffer (bytes)
Returns
the computed crc-32.

Definition at line 60 of file crc32.cc.

References crc32table, and data.

Referenced by ns3::EthernetTrailer::CalcFcs(), and ns3::EthernetTrailer::CheckFcs().

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◆ CRC8Calculate()

uint8_t ns3::CRC8Calculate ( const uint8_t * data,
int length )
Parameters
databuffer to calculate the checksum for
lengththe length of the buffer (bytes)
Returns
the computed crc.

Definition at line 40 of file crc8.cc.

References crc8table, and data.

Referenced by ns3::BandwidthRequestHeader::Deserialize(), ns3::GenericMacHeader::Deserialize(), ns3::BandwidthRequestHeader::Serialize(), and ns3::GenericMacHeader::Serialize().

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◆ create_view()

GtkWidget * ns3::create_view ( GtkTreeStore * model)

This is the main view opening the widget, getting tooltips and drawing the tree of attributes...

Parameters
modelthe GtkTreeStore model
Returns
a GtkWidget on success

Definition at line 249 of file display-functions.cc.

References cell_data_function_col_0(), cell_data_function_col_1(), cell_edited_callback(), and cell_tooltip_callback().

Referenced by ns3::GtkConfigStore::ConfigureAttributes().

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◆ create_view_config_default()

GtkWidget * ns3::create_view_config_default ( GtkTreeStore * model)

This is the main view opening the widget, getting tooltips and drawing the tree of attributes.

Parameters
modelthe GtkTreeStore model
Returns
a GtkWidget on success

Definition at line 651 of file display-functions.cc.

References cell_data_function_col_0_config_default(), cell_data_function_col_1_config_default(), cell_edited_callback_config_default(), and cell_tooltip_callback_config_default().

Referenced by ns3::GtkConfigStore::ConfigureDefaults().

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◆ DbmToW()

◆ DbToRatio()

double ns3::DbToRatio ( dB_u val)

Convert from dB to ratio.

Parameters
valthe value in dB
Returns
ratio in linear scale

Definition at line 25 of file wifi-utils.cc.

Referenced by WifiErrorRateModelsTestCaseMimo::DoRun(), ns3::PhyEntity::EndOfMpdu(), ns3::WifiPhy::SetInterferenceHelper(), ns3::WifiPhy::SetRxNoiseFigure(), and ns3::SpectrumWifiPhy::StartRx().

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◆ DefaultTimePrinter()

void ns3::DefaultTimePrinter ( std::ostream & os)

Default Time printer.

Parameters
[in,out]osThe output stream to print on.

Definition at line 29 of file time-printer.cc.

References ns3::Time::As(), ns3::Time::FS, ns3::Time::GetResolution(), ns3::Simulator::Now(), ns3::Time::NS, ns3::Time::PS, ns3::Time::S, and ns3::Time::US.

Referenced by GetImpl(), and ns3::Simulator::SetImplementation().

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◆ DegreesToRadians() [1/2]

std::vector< double > ns3::DegreesToRadians ( const std::vector< double > & degrees)

converts degrees to radians

Parameters
degreesthe angles in degrees
Returns
the angles in radians

Definition at line 40 of file angles.cc.

References DegreesToRadians().

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◆ DegreesToRadians() [2/2]

◆ delete_event_callback()

gboolean ns3::delete_event_callback ( GtkWidget * widget,
GdkEvent * event,
gpointer user_data )

Exit the application.

Parameters
widgeta pointer to the widget
eventthe event responsible for the application exit
user_datauser data
Returns
true on clean exit

Definition at line 307 of file display-functions.cc.

Referenced by ns3::GtkConfigStore::ConfigureAttributes(), and ns3::GtkConfigStore::ConfigureDefaults().

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◆ Demangle()

std::string ns3::Demangle ( const std::string & mangled)
Parameters
[in]mangledThe mangled string
Returns
The demangled form of mangled

Definition at line 69 of file demangle.cc.

References NS_LOG_FUNCTION.

Referenced by ns3::CallbackImplBase::GetCppTypeid(), and ns3::EnumChecker< T >::GetValueTypeName().

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◆ Div()

int64_t ns3::Div ( const Time & lhs,
const Time & rhs )
inline

Integer quotient from dividing two Times.

This is the same as the "normal" C++ integer division, which truncates (discarding any remainder).

As usual, if ta, and tb are both Times

ta == tb * Div (ta, tb) + Rem (ta, tb);
ta == tb * (ta / tb).GetHigh() + ta % tb;
int64_t Div(const Length &numerator, const Length &denominator, Length *remainder)
Calculate how many times numerator can be split into denominator sized pieces.
Definition length.cc:471
Time Rem(const Time &lhs, const Time &rhs)
Remainder (modulus) from the quotient of two Times.
Definition nstime.h:1115
Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The integer portion of lhs / rhs.
See also
Rem()

Definition at line 1143 of file nstime.h.

◆ DlRxPduCallback()

void ns3::DlRxPduCallback ( Ptr< BoundCallbackArgument > arg,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize,
uint64_t delay )

Callback function for DL RX statistics for both RLC and PDCP.

Parameters
arg
path
rnti
lcid
packetSize
delay

Definition at line 75 of file radio-bearer-stats-connector.cc.

References NS_LOG_FUNCTION, and packetSize.

Referenced by ns3::RadioBearerStatsConnector::ConnectTracesDrbUe(), ns3::RadioBearerStatsConnector::ConnectTracesSrb0(), and ns3::RadioBearerStatsConnector::ConnectTracesSrb1().

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◆ DlTxPduCallback()

void ns3::DlTxPduCallback ( Ptr< BoundCallbackArgument > arg,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize )

Callback function for DL TX statistics for both RLC and PDCP.

Parameters
arg
path
rnti
lcid
packetSize

Definition at line 55 of file radio-bearer-stats-connector.cc.

References NS_LOG_FUNCTION, and packetSize.

Referenced by ns3::RadioBearerStatsConnector::ConnectTracesDrbEnb(), ns3::RadioBearerStatsConnector::ConnectTracesSrb0(), and ns3::RadioBearerStatsConnector::ConnectTracesSrb1().

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◆ DoGetTemplateClassName()

template<typename T >
std::string ns3::DoGetTemplateClassName ( )

Helper function to get the name (as a string) of the type of a template class.

Returns
the name of the type of a template class as a string

A specialization of this function is defined by the NS_OBJECT_TEMPLATE_CLASS_DEFINE macro.

Referenced by GetTemplateClassName().

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◆ DoRound()

static double ns3::DoRound ( double v)
static

Utility function that rounds |1e-4| < input value < |1e-3| up to +/- 1e-3 and value <= |1e-4| to zero.

Parameters
vvalue to round
Returns
rounded value

Definition at line 137 of file mobility-helper.cc.

Referenced by ns3::MobilityHelper::CourseChanged().

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◆ DynamicCast()

template<typename T1 , typename T2 >
Ptr< T1 > ns3::DynamicCast ( const Ptr< T2 > & p)

Cast a Ptr.

Template Parameters
T1[deduced] The desired type to cast to.
T2[deduced] The type of the original Ptr.
Parameters
[in]pThe original Ptr.
Returns
The result of the cast.

Definition at line 580 of file ptr.h.

References PeekPointer().

Referenced by ns3::Ipv6Interface::AddAddress(), ns3::SixLowPanHelper::AddContext(), ns3::lorawan::NetworkServer::AddGateway(), ns3::lorawan::NetworkServer::AddNode(), ns3::lorawan::NetworkStatus::AddNode(), ns3::SpectrumWifiPhyHelper::AddWifiBandwidthFilter(), ns3::Ipv4AddressHelper::Assign(), ns3::Ipv6AddressHelper::Assign(), ns3::AodvHelper::AssignStreams(), ns3::CsmaHelper::AssignStreams(), ns3::LrWpanHelper::AssignStreams(), ns3::LteHelper::AssignStreams(), ns3::MeshHelper::AssignStreams(), ns3::OlsrHelper::AssignStreams(), ns3::RipHelper::AssignStreams(), ns3::RipNgHelper::AssignStreams(), ns3::SixLowPanHelper::AssignStreams(), ns3::UanHelper::AssignStreams(), ns3::WifiHelper::AssignStreams(), ns3::WimaxHelper::AssignStreams(), ns3::LteHelper::Attach(), ns3::NixVectorRouting< T >::BuildIpAddressToNodeMap(), ns3::InterferenceHelper::CalculateMuMimoPowerW(), ns3::TcpSocketBase::CalculateRttSample(), WifiPrimaryChannelsTest::CheckAssociation(), TestAmpduReception::CheckPhyState(), TestInterBssConstantObssPdAlgo::CheckPhyState(), ns3::Ipv4PacketFilter::CheckProtocol(), ns3::Ipv6PacketFilter::CheckProtocol(), OfdmaAckSequenceTest::CheckResults(), WifiTxopTest::CheckResults(), SpectrumWifiPhyMultipleInterfacesTest::CheckRxingState(), LteRadioLinkFailureTestCase::CheckUeExistAtEnb(), ns3::lorawan::ClassAEndDeviceLorawanMac::CloseFirstReceiveWindow(), ns3::lorawan::ClassAEndDeviceLorawanMac::CloseSecondReceiveWindow(), ns3::lorawan::LorawanMacHelper::ConfigureForAlohaRegion(), ns3::lorawan::LorawanMacHelper::ConfigureForEuRegion(), ns3::lorawan::LorawanMacHelper::ConfigureForSingleChannelRegion(), ns3::AnimationInterface::ConnectLte(), ns3::ConstantObssPdAlgorithm::ConnectWifiNetDevice(), ns3::ObssPdAlgorithm::ConnectWifiNetDevice(), BatteryLifetimeTest::ConstantLoadTest(), ns3::PairValue< A, B >::Copy(), WaypointMobilityModelAddWaypointTest::CourseChangeCallback(), ns3::lorawan::LoraPhyHelper::Create(), ns3::lorawan::LorawanMacHelper::Create(), ns3::WifiMacHelper::Create(), ns3::LrWpanHelper::CreateAssociatedPan(), ns3::lorawan::CreateNetworkServer(), ns3::olsr::Bug780Test::CreateNodes(), ns3::olsr::HelloRegressionTest::CreateNodes(), ns3::olsr::TcRegressionTest::CreateNodes(), TcpAdvertisedWindowTest::CreateReceiverSocket(), TcpAdvWindowOnLossTest::CreateReceiverSocket(), TcpSlowStartAttackerTest::CreateReceiverSocket(), ns3::TcpEcnTest::CreateSenderSocket(), TcpDctcpCodePointsTest::CreateSenderSocket(), ns3::TcpGeneralTest::CreateSocket(), ns3::AttributeContainerValue< A, Sep, C >::DeserializeFromString(), ns3::PairValue< A, B >::DeserializeFromString(), ns3::TupleValue< Args >::DeserializeFromString(), ns3::GlobalRouter::DiscoverLSAs(), ns3::NoBackhaulEpcHelper::DoActivateEpsBearerForUe(), SpectrumWifiPhyMultipleInterfacesTest::DoCheckInterferences(), TestDlMuMimoPhyTransmission::DoCheckPhyState(), TestDlOfdmaPhyPuncturing::DoCheckPhyState(), TestDlOfdmaPhyTransmission::DoCheckPhyState(), TestUlMuMimoPhyTransmission::DoCheckPhyState(), TestUlOfdmaPhyTransmission::DoCheckPhyState(), WifiPhyCcaIndicationTest::DoCheckPhyState(), WifiPhyReceptionTest::DoCheckPhyState(), ns3::WifiBandwidthFilter::DoFilter(), ns3::Rip::DoInitialize(), ns3::AcousticModemEnergyModelHelper::DoInstall(), ns3::lorawan::LoraRadioEnergyModelHelper::DoInstall(), ns3::WifiRadioEnergyModelHelper::DoInstall(), ns3::lorawan::LoraHelper::DoPrintDeviceStatus(), ns3::LteEnbMac::DoReceiveLteControlMessage(), ns3::LteUeMac::DoReceiveLteControlMessage(), ns3::LteEnbPhy::DoRemoveUe(), AidAssignmentTest::DoRun(), AmpduAggregationTest::DoRun(), AttributeContainerSerializationTestCase::DoRun(), BlockAckAggregationDisabledTest::DoRun(), BriteTopologyFunctionTestCase::DoRun(), Bug2222TestCase::DoRun(), Bug730TestCase::DoRun(), BulkSendBasicTestCase::DoRun(), BulkSendSeqTsSizeTestCase::DoRun(), ClickIfidFromNameTest::DoRun(), ClickIpMacAddressFromNameTest::DoRun(), ClickTrivialTest::DoRun(), DhcpTestCase::DoRun(), DownlinkPacketTest::DoRun(), DsssModulationTest::DoRun(), EhtAggregationTest::DoRun(), FlushTest::DoRun(), FqCoDelQueueDiscECNMarking::DoRun(), HeaderTest::DoRun(), HeAggregationTest::DoRun(), InterferenceHelperSequenceTest::DoRun(), Ipv4FragmentationTest::DoRun(), Ipv4PacketInfoTagTest::DoRun(), Ipv6PacketInfoTagTest::DoRun(), Issue211Test::DoRun(), LinkCheckTest::DoRun(), LteCqiGenerationDlPowerControlTestCase::DoRun(), LteDownlinkPowerControlRrcConnectionReconfigurationTestCase::DoRun(), LteDownlinkPowerControlTestCase::DoRun(), LteHandoverFailureTestCase::DoRun(), LtePrimaryCellChangeTestCase::DoRun(), LteSecondaryCellHandoverTestCase::DoRun(), LteSecondaryCellSelectionTestCase::DoRun(), LteUplinkClosedLoopPowerControlAbsoluteModeTestCase::DoRun(), LteUplinkClosedLoopPowerControlAccumulatedModeTestCase::DoRun(), LteUplinkOpenLoopPowerControlTestCase::DoRun(), ns3::TcpGeneralTest::DoRun(), OfdmaAckSequenceTest::DoRun(), PhyConnectivityTest::DoRun(), PingTestCase::DoRun(), PreservePacketsInAmpdus::DoRun(), QosFragmentationTestCase::DoRun(), SpectrumWifiPhyInterfacesHelperTest::DoRun(), StaWifiMacScanningTestCase::DoRun(), TcFlowControlTestCase::DoRun(), TcpSynConnectionFailedTest::DoRun(), TestUnsupportedModulationReception::DoRun(), ThreeGppV2vBuildingsChCondModelTestCase::DoRun(), TwoLevelAggregationTest::DoRun(), UdpClientServerTestCase::DoRun(), UdpTraceClientServerTestCase::DoRun(), WaypointMobilityModelAddWaypointTest::DoRun(), WifiAcMappingTest::DoRun(), WifiMsduAggregatorThroughputTest::DoRun(), WifiPrimaryChannelsTest::DoRun(), WifiTxopTest::DoRun(), ns3::CqaFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdBetFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdMtFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdTbfqFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::PfFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::PssFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::RrFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdBetFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdMtFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdTbfqFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TtaFfMacScheduler::DoSchedUlCqiInfoReq(), Ipv4PacketInfoTagTest::DoSendData(), Ipv6PacketInfoTagTest::DoSendData(), WifiPrimaryChannelsTest::DoSendHeTbPpdu(), AidAssignmentTest::DoSetup(), BackoffGenerationTest::DoSetup(), EmlsrOperationsTestBase::DoSetup(), MultiLinkOperationsTestBase::DoSetup(), ns3::Ipv6Interface::DoSetup(), OrigBlockAckWindowStalled::DoSetup(), PingTestCase::DoSetup(), SpectrumWifiPhyMultipleInterfacesTest::DoSetup(), TestUlOfdmaPowerControl::DoSetup(), WifiPrimaryChannelsTest::DoSetup(), ns3::WifiPhyRxTraceHelper::Enable(), ns3::WimaxHelper::EnableAsciiInternal(), ns3::lrwpan::LrWpanPhy::EndRx(), experiment(), ns3::lorawan::ClassAEndDeviceLorawanMac::FailedReception(), ns3::EhtFrameExchangeManager::GenerateInDeviceInterference(), BackoffGenerationTest::GenerateInterference(), ns3::AnimationInterface::GenericWirelessTxTrace(), ns3::WifiDefaultAckManager::GetAckInfoIfAggregatedMuBar(), ns3::WifiDefaultAckManager::GetAckInfoIfBarBaSequence(), ns3::WifiDefaultAckManager::GetAckInfoIfTfMuBar(), ns3::HePhy::GetAddressedPsduInPpdu(), ns3::TcpGeneralTest::GetClockGranularity(), ns3::TcpGeneralTest::GetConnTimeout(), ns3::TcpGeneralTest::GetDelAckCount(), ns3::TcpGeneralTest::GetDelAckTimeout(), ns3::lorawan::LoraChannel::GetDevice(), ns3::TcpGeneralTest::GetDupAckCount(), OfdmaSpectrumWifiPhy::GetHePhy(), ns3::TcpGeneralTest::GetInitialCwnd(), ns3::TcpGeneralTest::GetInitialSsThresh(), ns3::LteEnbNetDevice::GetMac(), ns3::lorawan::LoraFrameHeader::GetMacCommand(), ns3::lorawan::GetMacLayerFromNode(), ns3::TcpGeneralTest::GetMinRto(), ns3::TcpGeneralTest::GetPersistentEvent(), ns3::TcpGeneralTest::GetPersistentTimeout(), ns3::LteEnbNetDevice::GetPhy(), ns3::WifiDefaultProtectionManager::GetPsduProtection(), ns3::ThreeGppChannelConditionModel::GetQuantizedElevationAngle(), ns3::TcpGeneralTest::GetReTxThreshold(), ns3::Ipv4RoutingHelper::GetRouting(), ns3::Ipv6RoutingHelper::GetRouting(), ns3::UeManager::GetRrcConnectionReconfigurationForHandover(), ns3::TcpGeneralTest::GetRto(), ns3::TcpGeneralTest::GetRttEstimator(), ns3::TcpGeneralTest::GetRWnd(), ns3::TcpGeneralTest::GetRxBuffer(), GetRxBytes(), ns3::HePhy::GetRxPpduFromTxPpdu(), ns3::TcpGeneralTest::GetSegSize(), ns3::HePhy::GetStaId(), ns3::Ipv4StaticRoutingHelper::GetStaticRouting(), ns3::Ipv6StaticRoutingHelper::GetStaticRouting(), ns3::TcpGeneralTest::GetTcb(), ns3::TcpGeneralTest::GetTcpState(), ns3::ThreeGppChannelModel::GetThreeGppTable(), LteAggregationThroughputScaleTestCase::GetThroughput(), ns3::TcpGeneralTest::GetTxBuffer(), ns3::HePhy::GetTxPowerSpectralDensity(), GoodputSampling(), ns3::Ipv4ClickRouting::HandlePacketFromClick(), ns3::FlowMonitorHelper::Install(), ns3::DhcpHelper::InstallDhcpClientPriv(), ns3::DhcpHelper::InstallDhcpServer(), ns3::DhcpHelper::InstallFixedAddress(), ns3::DpdkNetDeviceHelper::InstallPriv(), ns3::lorawan::ForwarderHelper::InstallPriv(), ns3::NetmapNetDeviceHelper::InstallPriv(), ns3::LteHelper::InstallSingleEnbDevice(), ns3::SixLowPanHelper::InvalidateContext(), ns3::AttributeDefaultIterator::Iterate(), ns3::AnimationInterface::LrWpanPhyTxBeginTrace(), MakeAttributeContainerChecker(), MakePairChecker(), ns3::WifiPhyRxTraceHelper::MapMacAddressesToNodeIds(), ns3::WifiPhyRxTraceSink::MapNodeToLinkToChannel(), ns3::EhtFrameExchangeManager::NotifyChannelReleased(), ns3::Rip::NotifyInterfaceUp(), FrameExchangeManagerStub< TxopType >::NotifyInternalCollision(), ns3::ChannelAccessManager::NotifySwitchingStartNow(), ns3::lorawan::ClassAEndDeviceLorawanMac::OpenFirstReceiveWindow(), ns3::lorawan::ClassAEndDeviceLorawanMac::OpenSecondReceiveWindow(), ns3::lorawan::EndDeviceLorawanMac::ParseCommands(), ns3::NeighborCacheHelper::PopulateNeighborCache(), ns3::NeighborCacheHelper::PopulateNeighborCache(), ns3::UeManager::PrepareHandover(), ns3::TcpSocketBase::ProcessOptionSack(), ns3::TcpSocketBase::ProcessOptionSackPermitted(), ns3::TcpSocketBase::ProcessOptionTimestamp(), ns3::TcpSocketBase::ProcessOptionWScale(), ns3::dot11s::PeerManagementProtocolMac::Receive(), ns3::Ipv4L3ClickProtocol::Receive(), ns3::lorawan::ClassAEndDeviceLorawanMac::Receive(), ns3::lorawan::GatewayLorawanMac::Receive(), ns3::dot11s::HwmpProtocolMac::ReceiveAction(), WifiPrimaryChannelsTest::ReceiveDl(), SixlowpanIphcStatefulImplTest::ReceiveFromMockDevice(), ns3::LteEnbPhy::ReceiveLteControlMessageList(), ns3::LteUePhy::ReceiveLteControlMessageList(), WifiPrimaryChannelsTest::ReceiveUl(), ns3::SixLowPanHelper::RemoveContext(), ns3::SixLowPanHelper::RenewContext(), ns3::NixVectorRouting< T >::RouteOutput(), Experiment::Run(), Experiment::Run(), Issue40TestCase::RunOne(), MldSwapLinksTest::RunOne(), TestInterBssConstantObssPdAlgo::RunOne(), TestUlOfdmaPowerControl::RunOne(), Bug2470TestCase::RunSubtest(), TestMultipleHeTbPreambles::RxHeTbPpdu(), ns3::Ipv4Interface::Send(), ns3::Ipv4L3ClickProtocol::Send(), ns3::Ipv6Interface::Send(), Send(), WifiPrimaryChannelsTest::SendDlMuPpdu(), WifiPrimaryChannelsTest::SendDlSuPpdu(), WifiPrimaryChannelsTest::SendHeTbPpdu(), TestUlOfdmaPowerControl::SendMuBar(), DownlinkPacketTest::SendPacket(), LinkCheckTest::SendPacket(), TestUlOfdmaPpduUid::SendTbPpdu(), ns3::lorawan::ClassAEndDeviceLorawanMac::SendToPhy(), ns3::Ipv4L3ClickProtocol::SendWithHeader(), UdpSocketImplTest::SentPkt(), TestUlMuMimoPhyTransmission::SetBssColor(), TestUlOfdmaPhyTransmission::SetBssColor(), ns3::RipHelper::SetDefaultRouter(), ns3::RipNgHelper::SetDefaultRouter(), ns3::LrWpanHelper::SetExtendedAddresses(), ns3::WifiMac::SetFrameExchangeManagers(), ns3::MpduAggregator::SetLinkId(), ns3::MsduAggregator::SetLinkId(), ns3::Ipv4ClickRouting::SetPromisc(), ns3::lorawan::LorawanMacHelper::SetSpreadingFactorsGivenDistribution(), ns3::lorawan::LorawanMacHelper::SetSpreadingFactorsUp(), TestPhyPaddingExclusion::SetTrigVector(), TestUlMuMimoPhyTransmission::SetTrigVector(), TestUlOfdmaPhyTransmission::SetTrigVector(), WifiFilsFrameTest::SetupDevice(), ns3::Ipv4L3ClickProtocol::SetupLoopback(), ns3::Ipv4L3Protocol::SetupLoopback(), ns3::Ipv6L3Protocol::SetupLoopback(), TestInterBssConstantObssPdAlgo::SetupSimulation(), ns3::TupleValue< Args >::SetValueImpl(), ns3::HeFrameExchangeManager::SetWifiMac(), ns3::MpduAggregator::SetWifiMac(), ns3::MsduAggregator::SetWifiMac(), ns3::MultiUserScheduler::SetWifiMac(), ns3::PyViz::SimulatorRunUntil(), ns3::SpectrumWifiPhyHelper::SpectrumChannelSwitched(), ns3::WifiPhyRxTraceSink::SpectrumPhySignalArrival(), ns3::BulkSendApplication::StartApplication(), ns3::lorawan::OneShotSender::StartApplication(), ns3::lorawan::PeriodicSender::StartApplication(), ns3::PacketSink::StartApplication(), ns3::UdpEchoServer::StartApplication(), ns3::HePhy::StartReceivePreamble(), ns3::HalfDuplexIdealPhy::StartRx(), ns3::lrwpan::LrWpanPhy::StartRx(), ns3::LteSimpleSpectrumPhy::StartRx(), ns3::LteSpectrumPhy::StartRx(), ns3::MultiModelSpectrumChannel::StartRx(), ns3::RemSpectrumPhy::StartRx(), ns3::SpectrumWifiPhy::StartRx(), Ipv4FragmentationTest::StartServer(), Ipv6FragmentationTest::StartServer(), SixlowpanFragmentationTest::StartServer(), ns3::LteEnbPhy::StartSubFrame(), ns3::EhtFrameExchangeManager::StartTransmission(), ns3::HePhy::StartTx(), ns3::MultiModelSpectrumChannel::StartTx(), ns3::SingleModelSpectrumChannel::StartTx(), ns3::HePhy::StartTxHePortion(), BasicEnergyUpdateTest::StateSwitchTest(), Bug2843TestCase::StoreDistinctTuple(), PowerRateAdaptationTest::TestAparf(), PowerRateAdaptationTest::TestParf(), PowerRateAdaptationTest::TestRrpaa(), ns3::PhyEntity::Transmit(), OfdmaAckSequenceTest::Transmit(), ns3::WifiDefaultAckManager::TryUlMuTransmission(), StaWifiMacScanningTestCase::TurnApOff(), StaWifiMacScanningTestCase::TurnBeaconGenerationOn(), ns3::lorawan::ClassAEndDeviceLorawanMac::TxFinished(), UpdateAnimation(), BatteryLifetimeTest::VariableLoadTest(), SpectrumWifiPhyTrackedBandsTest::VerifyTrackedBands(), and ns3::AnimationInterface::WifiPhyTxBeginTrace().

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◆ exit_clicked_callback()

void ns3::exit_clicked_callback ( GtkButton * button,
gpointer user_data )

Exit the window when exit button is pressed.

Parameters
buttonthe pressed button
user_data

Definition at line 297 of file display-functions.cc.

Referenced by ns3::GtkConfigStore::ConfigureAttributes(), and ns3::GtkConfigStore::ConfigureDefaults().

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◆ GenerateId()

static uint64_t ns3::GenerateId ( )
static

Generate an ID.

Returns
Generated ID.

Definition at line 25 of file openflow-switch-net-device.cc.

Referenced by ns3::OpenFlowSwitchNetDevice::GetTypeId().

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◆ get_col_number_from_tree_view_column()

int ns3::get_col_number_from_tree_view_column ( GtkTreeViewColumn * col)

This function gets the column number 0 or 1 from the mouse click.

Parameters
colthe column being clicked
Returns
the column index

Definition at line 116 of file display-functions.cc.

Referenced by cell_tooltip_callback(), and cell_tooltip_callback_config_default().

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◆ GetAckSize()

uint32_t ns3::GetAckSize ( )

Return the total Ack size (including FCS trailer).

Returns
the total Ack size in bytes

Definition at line 50 of file wifi-utils.cc.

References ns3::WifiMacHeader::GetSize(), and WIFI_MAC_CTL_ACK.

Referenced by ns3::FrameExchangeManager::CalculateAcknowledgmentTime(), ns3::HeFrameExchangeManager::CalculateAcknowledgmentTime(), EmlsrDlTxopTest::CheckApEmlNotificationFrame(), EmlsrDlTxopTest::CheckStaEmlNotificationFrame(), ns3::FrameExchangeManager::GetFrameDurationId(), ns3::HtFrameExchangeManager::ReceiveMgtAction(), and ns3::FrameExchangeManager::SendNormalAck().

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◆ GetBlockAckRequestSize()

uint32_t ns3::GetBlockAckRequestSize ( BlockAckReqType type)

Return the total BlockAckRequest size (including FCS trailer).

Parameters
typethe BlockAckRequest type
Returns
the total BlockAckRequest size in bytes

Definition at line 68 of file wifi-utils.cc.

References ns3::CtrlBAckRequestHeader::GetSerializedSize(), ns3::WifiMacHeader::GetSize(), ns3::CtrlBAckRequestHeader::SetType(), ns3::WifiMacHeader::SetType(), and WIFI_MAC_CTL_BACKREQ.

Referenced by ns3::HeFrameExchangeManager::CalculateAcknowledgmentTime(), and ns3::HtFrameExchangeManager::CalculateAcknowledgmentTime().

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◆ GetBlockAckSize()

uint32_t ns3::GetBlockAckSize ( BlockAckType type)

Return the total BlockAck size (including FCS trailer).

Parameters
typethe BlockAck type
Returns
the total BlockAck size in bytes

Definition at line 58 of file wifi-utils.cc.

References ns3::CtrlBAckResponseHeader::GetSerializedSize(), ns3::WifiMacHeader::GetSize(), ns3::CtrlBAckResponseHeader::SetType(), ns3::WifiMacHeader::SetType(), and WIFI_MAC_CTL_BACKRESP.

Referenced by ns3::HeFrameExchangeManager::CalculateAcknowledgmentTime(), ns3::HtFrameExchangeManager::CalculateAcknowledgmentTime(), TestUlOfdmaPowerControl::SendMuBar(), and ns3::HeFrameExchangeManager::SendMultiStaBlockAck().

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◆ GetChannelWidthInMhz()

MHz_u ns3::GetChannelWidthInMhz ( WifiChannelWidthType width)

Get the total channel width for the channel width type.

Parameters
widththe channel width type
Returns
the total channel width for the channel width type

Definition at line 262 of file wifi-phy-common.cc.

References CW_10MHZ, CW_160MHZ, CW_20MHZ, CW_2160MHZ, CW_22MHZ, CW_40MHZ, CW_5MHZ, CW_80_PLUS_80MHZ, CW_80MHZ, NS_FATAL_ERROR, and UNKNOWN.

◆ GetCtsSize()

uint32_t ns3::GetCtsSize ( )

Return the total CTS size (including FCS trailer).

Returns
the total CTS size in bytes

Definition at line 103 of file wifi-utils.cc.

References ns3::WifiMacHeader::GetSize(), and WIFI_MAC_CTL_CTS.

Referenced by ns3::FrameExchangeManager::CalculateProtectionTime(), ns3::HeFrameExchangeManager::CalculateProtectionTime(), ns3::FrameExchangeManager::DoSendCtsAfterRts(), ns3::QosFrameExchangeManager::GetCtsToSelfDurationId(), ns3::FrameExchangeManager::GetRtsDurationId(), ns3::DefaultEmlsrManager::GetTimeToCtsEnd(), ns3::FrameExchangeManager::SendCtsToSelf(), ns3::FrameExchangeManager::UpdateNav(), and ns3::HeFrameExchangeManager::UpdateNav().

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◆ GetDefaultChannelWidth()

MHz_u ns3::GetDefaultChannelWidth ( WifiStandard standard,
WifiPhyBand band )
inline

Get the default channel width for the given PHY standard and band.

Parameters
standardthe given standard
bandthe given PHY band
Returns
the default channel width for the given standard

Definition at line 111 of file wifi-standards.h.

References WIFI_PHY_BAND_2_4GHZ, WIFI_STANDARD_80211ac, WIFI_STANDARD_80211ad, WIFI_STANDARD_80211ax, WIFI_STANDARD_80211b, WIFI_STANDARD_80211be, and WIFI_STANDARD_80211p.

Referenced by ns3::WifiPhy::DoChannelSwitch().

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◆ GetDefaultPhyBand()

WifiPhyBand ns3::GetDefaultPhyBand ( WifiStandard standard)
inline

Get the default PHY band for the given standard.

Parameters
standardthe given standard
Returns
the default PHY band for the given standard

Definition at line 138 of file wifi-standards.h.

References WIFI_PHY_BAND_2_4GHZ, WIFI_PHY_BAND_5GHZ, WIFI_PHY_BAND_60GHZ, WIFI_STANDARD_80211a, WIFI_STANDARD_80211ac, WIFI_STANDARD_80211ad, WIFI_STANDARD_80211ax, WIFI_STANDARD_80211be, and WIFI_STANDARD_80211p.

Referenced by ns3::WifiPhy::DoChannelSwitch().

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◆ GetDsssRatesBpsList()

const std::array< uint64_t, 4 > & ns3::GetDsssRatesBpsList ( )

Get the array of possible DSSS rates.

Returns
the DSSS rates in bits per second

Definition at line 66 of file dsss-phy.cc.

References s_dsssRatesBpsList.

Referenced by ns3::DsssPhy::DsssPhy(), and ns3::DsssPhy::InitializeModes().

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◆ GetErpOfdmRatesBpsList()

const std::array< uint64_t, 8 > & ns3::GetErpOfdmRatesBpsList ( )

Get the array of possible ERP OFDM rates.

Returns
the ERP OFDM rates in bits per second

Definition at line 61 of file erp-ofdm-phy.cc.

References s_erpOfdmRatesBpsList.

Referenced by ns3::ErpOfdmPhy::ErpOfdmPhy(), and ns3::ErpOfdmPhy::InitializeModes().

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◆ GetFrameExchangeManagerTypeIdName()

std::string ns3::GetFrameExchangeManagerTypeIdName ( WifiStandard standard,
bool qosSupported )
inline

Get the TypeId name for the FrameExchangeManager corresponding to the given standard.

Parameters
standardthe given standard
qosSupportedwhether QoS is supported (ignored if standard is at least HT)
Returns
the TypeId name for the FrameExchangeManager corresponding to the given standard

Definition at line 163 of file wifi-standards.h.

References WIFI_STANDARD_80211ac, WIFI_STANDARD_80211ax, WIFI_STANDARD_80211be, and WIFI_STANDARD_80211n.

Referenced by ns3::WifiMacHelper::WifiMacHelper(), ns3::WifiMacHelper::Create(), ns3::MeshHelper::CreateInterface(), and AmpduAggregationTest::DoSetup().

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◆ GetFrequencyChannelType()

FrequencyChannelType ns3::GetFrequencyChannelType ( WifiStandard standard)
inline

Get the type of the frequency channel for the given standard.

Parameters
standardthe standard
Returns
the type of the frequency channel for the given standard

Definition at line 90 of file wifi-standards.h.

References CH_80211P, DSSS, OFDM, WIFI_STANDARD_80211b, and WIFI_STANDARD_80211p.

Referenced by ns3::WifiPhyOperatingChannel::FindFirst().

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◆ GetGuardIntervalForMode() [1/2]

Time ns3::GetGuardIntervalForMode ( WifiMode mode,
bool htShortGuardInterval,
Time heGuardInterval )

Get the guard interval for a given WifiMode.

Parameters
modethe WifiMode
htShortGuardIntervalwhether HT/VHT short guard interval is enabled
heGuardIntervalthe HE guard interval duration
Returns
the guard interval duration to use for the mode

Definition at line 43 of file wifi-phy-common.cc.

References ns3::WifiMode::GetModulationClass(), NanoSeconds(), WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HT, and WIFI_MOD_CLASS_VHT.

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◆ GetGuardIntervalForMode() [2/2]

Time ns3::GetGuardIntervalForMode ( WifiMode mode,
const Ptr< WifiNetDevice > device )

Get the guard interval for a given WifiMode.

Parameters
modethe WifiMode
devicepointer to the WifiNetDevice object
Returns
the guard interval duration to use for the mode

Definition at line 21 of file wifi-phy-common.cc.

References ns3::WifiMode::GetModulationClass(), NanoSeconds(), NS_ASSERT, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HT, and WIFI_MOD_CLASS_VHT.

Referenced by ns3::MeshWifiInterfaceMac::CheckSupportedRates(), ns3::ConstantRateWifiManager::DoGetDataTxVector(), ns3::ConstantRateWifiManager::DoGetRtsTxVector(), ns3::WifiRemoteStationManager::GetAckTxVector(), ns3::WifiRemoteStationManager::GetBlockAckTxVector(), ns3::WifiRemoteStationManager::GetCtsToSelfTxVector(), ns3::WifiRemoteStationManager::GetCtsTxVector(), ns3::WifiRemoteStationManager::GetDataTxVector(), ns3::WifiRemoteStationManager::GetRtsTxVector(), ns3::MeshWifiInterfaceMac::GetSupportedRates(), and ns3::MeshWifiInterfaceMac::Receive().

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◆ GetLogComponent()

LogComponent & ns3::GetLogComponent ( const std::string name)

Get the LogComponent registered with the given name.

Parameters
[in]nameThe name of the LogComponent.
Returns
a reference to the requested LogComponent

Definition at line 170 of file log.cc.

References ns3::LogComponent::GetComponentList(), and NS_FATAL_ERROR.

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◆ GetMaximumChannelWidth()

MHz_u ns3::GetMaximumChannelWidth ( WifiModulationClass modulation)

Get the maximum channel width allowed for the given modulation class.

Parameters
modulationthe modulation class
Returns
the maximum channel width allowed for the given modulation class

Definition at line 236 of file wifi-phy-common.cc.

References NS_ABORT_MSG, WIFI_MOD_CLASS_DSSS, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_ERP_OFDM, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HR_DSSS, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_OFDM, and WIFI_MOD_CLASS_VHT.

Referenced by ns3::EmlsrManager::ComputeOperatingChannels(), ns3::WifiPhyOperatingChannel::FindFirst(), and ns3::WifiPhy::GetTxBandwidth().

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◆ GetMaxNss()

uint32_t ns3::GetMaxNss ( const std::vector< uint8_t > & vec,
uint8_t mcsStart,
uint8_t mcsEnd )

Get the max Tx/Rx NSS for input MCS index range.

Parameters
vecvector of max NSS per MCS
mcsStartMCS index start
mcsEndMCS index end
Returns
max Rx NSS

Definition at line 92 of file eht-operation.cc.

References NS_ASSERT, WIFI_EHT_MAX_MCS_INDEX, and WIFI_EHT_MAX_NSS_CONFIGURABLE.

Referenced by ns3::EhtOperation::EhtBasicMcsNssSet::Serialize().

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◆ GetModulationClassForPreamble()

WifiModulationClass ns3::GetModulationClassForPreamble ( WifiPreamble preamble)

Return the modulation class corresponding to the given preamble type.

Only preamble types used by HT/VHT/HE/EHT can be passed to this function.

Parameters
preamblethe given preamble type (must be one defined by HT standard or later)
Returns
the modulation class corresponding to the given preamble type

Definition at line 102 of file wifi-phy-common.cc.

References NS_ABORT_MSG, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_UNKNOWN, WIFI_MOD_CLASS_VHT, WIFI_PREAMBLE_EHT_MU, WIFI_PREAMBLE_EHT_TB, WIFI_PREAMBLE_HE_ER_SU, WIFI_PREAMBLE_HE_MU, WIFI_PREAMBLE_HE_SU, WIFI_PREAMBLE_HE_TB, WIFI_PREAMBLE_HT_MF, WIFI_PREAMBLE_VHT_MU, and WIFI_PREAMBLE_VHT_SU.

Referenced by ns3::WifiTxVector::GetMode(), and ns3::WifiTxVector::GetModulationClass().

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◆ GetModulationClassForStandard()

WifiModulationClass ns3::GetModulationClassForStandard ( WifiStandard standard)

Return the modulation class corresponding to a given standard.

In the case of WIFI_STANDARD_80211b, two modulation classes are supported (WIFI_MOD_CLASS_DSSS and WIFI_MOD_CLASS_HR_DSSS); this method will return the latter.

Parameters
standardthe standard
Returns
the modulation class corresponding to the standard

Definition at line 195 of file wifi-phy-common.cc.

References NS_ASSERT_MSG, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_ERP_OFDM, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HR_DSSS, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_OFDM, WIFI_MOD_CLASS_UNKNOWN, WIFI_MOD_CLASS_VHT, WIFI_STANDARD_80211a, WIFI_STANDARD_80211ac, WIFI_STANDARD_80211ax, WIFI_STANDARD_80211b, WIFI_STANDARD_80211be, WIFI_STANDARD_80211g, WIFI_STANDARD_80211n, WIFI_STANDARD_80211p, and WIFI_STANDARD_UNSPECIFIED.

Referenced by ns3::WifiPhy::ConfigureStandard(), ns3::WifiPhyOperatingChannel::FindFirst(), and ns3::WifiPhy::GetPhyEntity().

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◆ GetMuBarSize()

uint32_t ns3::GetMuBarSize ( std::list< BlockAckReqType > types)

Return the total MU-BAR size (including FCS trailer).

Parameters
typesthe list of Block Ack Request types of the individual BARs
Returns
the total MU-BAR size in bytes

Definition at line 78 of file wifi-utils.cc.

References ns3::CtrlTriggerHeader::AddUserInfoField(), ns3::CtrlTriggerHeader::GetSerializedSize(), ns3::WifiMacHeader::GetSize(), MU_BAR_TRIGGER, ns3::CtrlBAckRequestHeader::SetType(), ns3::CtrlTriggerHeader::SetType(), ns3::WifiMacHeader::SetType(), and WIFI_MAC_CTL_TRIGGER.

Referenced by ns3::HeFrameExchangeManager::CalculateAcknowledgmentTime(), ns3::WifiDefaultAckManager::GetAckInfoIfAggregatedMuBar(), and ns3::HeFrameExchangeManager::GetTxDuration().

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◆ GetNodeIdFromToken()

std::string ns3::GetNodeIdFromToken ( std::string str)
static

Gets nodeId number in string format from the string like $node_(4)

Parameters
strstring to de-tokenize
Returns
A string with the nodeId number

Definition at line 648 of file ns2-mobility-helper.cc.

References HasNodeIdNumber().

Referenced by ParseNs2Line().

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◆ GetNodeIdInt()

int ns3::GetNodeIdInt ( ParseResult pr)
static

Get node id number in int format.

Parameters
prthe ParseResult to analyze
Returns
the node ID (as an int)

Definition at line 665 of file ns2-mobility-helper.cc.

References ns3::ParseResult::ivals, and ns3::ParseResult::tokens.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ GetNodeIdString()

std::string ns3::GetNodeIdString ( ParseResult pr)
static

Get node id number in string format.

Parameters
prthe ParseResult to analyze
Returns
the node ID (as a string)

Definition at line 685 of file ns2-mobility-helper.cc.

References ns3::ParseResult::svals, and ns3::ParseResult::tokens.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ GetOfdmRatesBpsList()

const std::map< MHz_u, std::array< uint64_t, 8 > > & ns3::GetOfdmRatesBpsList ( )

Get the array of possible OFDM rates for each bandwidth.

Returns
the OFDM rates in bits per second

Definition at line 93 of file ofdm-phy.cc.

References s_ofdmRatesBpsList.

Referenced by ns3::OfdmPhy::OfdmPhy(), and ns3::OfdmPhy::InitializeModes().

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◆ GetPointer()

template<typename U >
U * ns3::GetPointer ( const Ptr< U > & p)

The underlying refcount is incremented prior to returning to the caller so the caller is responsible for calling Unref himself.

Template Parameters
U[deduced] The actual type of the argument and return pointer.
Parameters
[in]pSmart pointer
Returns
The pointer managed by this smart pointer.

Definition at line 450 of file ptr.h.

Referenced by ns3::tests::PtrTestCase::DoRun(), GetImpl(), ns3::Simulator::Schedule(), ns3::Simulator::ScheduleDestroy(), ns3::Simulator::ScheduleNow(), and ns3::Simulator::SetImplementation().

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◆ GetPpduMaxTime()

Time ns3::GetPpduMaxTime ( WifiPreamble preamble)

Get the maximum PPDU duration (see Section 10.14 of 802.11-2016) for the PHY layers defining the aPPDUMaxTime characteristic (HT, VHT and HE).

Return zero otherwise.

Parameters
preamblethe preamble type
Returns
the maximum PPDU duration, if defined, and zero otherwise

Definition at line 152 of file wifi-phy-common.cc.

References MicroSeconds(), WIFI_PREAMBLE_EHT_MU, WIFI_PREAMBLE_EHT_TB, WIFI_PREAMBLE_HE_ER_SU, WIFI_PREAMBLE_HE_MU, WIFI_PREAMBLE_HE_SU, WIFI_PREAMBLE_HE_TB, WIFI_PREAMBLE_HT_MF, WIFI_PREAMBLE_VHT_MU, and WIFI_PREAMBLE_VHT_SU.

Referenced by OfdmaAckSequenceTest::CheckResults(), ns3::QosFrameExchangeManager::IsWithinSizeAndTimeLimits(), and ns3::RrMultiUserScheduler::TrySendingBasicTf().

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◆ GetPreambleForTransmission()

WifiPreamble ns3::GetPreambleForTransmission ( WifiModulationClass modulation,
bool useShortPreamble )

Return the preamble to be used for the transmission.

Parameters
modulationthe modulation selected for the transmission
useShortPreamblewhether short preamble should be used
Returns
the preamble to be used for the transmission

Definition at line 59 of file wifi-phy-common.cc.

References WIFI_MOD_CLASS_DMG_CTRL, WIFI_MOD_CLASS_DMG_OFDM, WIFI_MOD_CLASS_DMG_SC, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HR_DSSS, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_VHT, WIFI_PREAMBLE_DMG_CTRL, WIFI_PREAMBLE_DMG_OFDM, WIFI_PREAMBLE_DMG_SC, WIFI_PREAMBLE_EHT_MU, WIFI_PREAMBLE_HE_SU, WIFI_PREAMBLE_HT_MF, WIFI_PREAMBLE_LONG, WIFI_PREAMBLE_SHORT, and WIFI_PREAMBLE_VHT_SU.

Referenced by ns3::AarfcdWifiManager::DoGetDataTxVector(), ns3::AarfWifiManager::DoGetDataTxVector(), ns3::AmrrWifiManager::DoGetDataTxVector(), ns3::AparfWifiManager::DoGetDataTxVector(), ns3::ArfWifiManager::DoGetDataTxVector(), ns3::CaraWifiManager::DoGetDataTxVector(), ns3::ConstantRateWifiManager::DoGetDataTxVector(), ns3::IdealWifiManager::DoGetDataTxVector(), ns3::MinstrelHtWifiManager::DoGetDataTxVector(), ns3::OnoeWifiManager::DoGetDataTxVector(), ns3::ParfWifiManager::DoGetDataTxVector(), ns3::RraaWifiManager::DoGetDataTxVector(), ns3::RrpaaWifiManager::DoGetDataTxVector(), ns3::ThompsonSamplingWifiManager::DoGetDataTxVector(), ns3::AarfcdWifiManager::DoGetRtsTxVector(), ns3::AarfWifiManager::DoGetRtsTxVector(), ns3::AmrrWifiManager::DoGetRtsTxVector(), ns3::AparfWifiManager::DoGetRtsTxVector(), ns3::ArfWifiManager::DoGetRtsTxVector(), ns3::CaraWifiManager::DoGetRtsTxVector(), ns3::ConstantRateWifiManager::DoGetRtsTxVector(), ns3::IdealWifiManager::DoGetRtsTxVector(), ns3::MinstrelHtWifiManager::DoGetRtsTxVector(), ns3::OnoeWifiManager::DoGetRtsTxVector(), ns3::ParfWifiManager::DoGetRtsTxVector(), ns3::RraaWifiManager::DoGetRtsTxVector(), ns3::RrpaaWifiManager::DoGetRtsTxVector(), ns3::ThompsonSamplingWifiManager::DoGetRtsTxVector(), ns3::WifiRemoteStationManager::GetAckTxVector(), ns3::WifiRemoteStationManager::GetBlockAckTxVector(), ns3::WifiRemoteStationManager::GetCtsTxVector(), ns3::MinstrelWifiManager::GetDataTxVector(), ns3::WifiRemoteStationManager::GetDataTxVector(), ns3::MinstrelWifiManager::GetRtsTxVector(), and ns3::WifiRemoteStationManager::GetRtsTxVector().

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◆ GetRtsSize()

uint32_t ns3::GetRtsSize ( )

Return the total RTS size (including FCS trailer).

Returns
the total RTS size in bytes

Definition at line 95 of file wifi-utils.cc.

References ns3::WifiMacHeader::GetSize(), and WIFI_MAC_CTL_RTS.

Referenced by ns3::FrameExchangeManager::CalculateProtectionTime(), ns3::QosFrameExchangeManager::GetRtsDurationId(), ns3::DefaultEmlsrManager::GetTimeToCtsEnd(), and ns3::FrameExchangeManager::SendRts().

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◆ GetSize()

uint32_t ns3::GetSize ( Ptr< const Packet > packet,
const WifiMacHeader * hdr,
bool isAmpdu )

Return the total size of the packet after WifiMacHeader and FCS trailer have been added.

Parameters
packetthe packet to be encapsulated with WifiMacHeader and FCS trailer
hdrthe WifiMacHeader
isAmpduwhether packet is part of an A-MPDU
Returns
the total packet size

Definition at line 124 of file wifi-utils.cc.

References ns3::WifiMacTrailer::GetSerializedSize(), and ns3::WifiMacHeader::GetSize().

Referenced by ns3::TcpTxBuffer::GetPacketFromList(), ns3::Ipv4RawSocketImpl::GetRxAvailable(), ns3::Ipv6RawSocketImpl::GetRxAvailable(), ns3::PbbTlv::GetSerializedSize(), ns3::MatrixArray< T >::HermitianTranspose(), ns3::BSSchedulerRtps::Schedule(), ns3::BSSchedulerSimple::Schedule(), and OfdmaAckSequenceTest::Transmit().

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◆ GetStaticHash()

Hasher & ns3::GetStaticHash ( )

Get a reference to the static global hasher at g_hasher.

Returns
Reference to the static Hasher instance.

Definition at line 25 of file hash.cc.

References ns3::Hasher::clear().

Referenced by Hash32(), Hash32(), Hash64(), and Hash64().

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◆ GetTemplateClassName()

template<typename T >
std::string ns3::GetTemplateClassName ( )

Helper function to get the name (as a string) of the type of a template class.

Returns
the name of the type of a template class as a string

Definition at line 144 of file object-base.h.

References DoGetTemplateClassName().

Referenced by ns3::DropTailQueue< Item >::GetTypeId(), and ns3::Queue< Item, Container >::GetTypeId().

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◆ GetWildcardMatches()

std::string ns3::GetWildcardMatches ( const std::string & configPath,
const std::string & matchedPath,
const std::string & wildcardSeparator = " " )

Returns the text matches from the matched path for each of the wildcards in the Config path, separated by the wild card separator.

Parameters
configPathConfig path to access the probe.
matchedPaththe path that matched the Config path.
wildcardSeparatorthe text to put between the wildcard matches. By default, a space is used.
Returns
String value of text matches

Definition at line 20 of file get-wildcard-matches.cc.

References NS_ASSERT_MSG.

Referenced by ns3::GnuplotHelper::PlotProbe(), and ns3::FileHelper::WriteProbe().

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◆ HasNodeIdNumber()

bool ns3::HasNodeIdNumber ( std::string str)
static

Checks if the value between brackets is a correct nodeId number.

Parameters
strstring to check
Returns
true if the string represents a nodeId number

Definition at line 626 of file ns2-mobility-helper.cc.

References IsNumber().

Referenced by GetNodeIdFromToken(), IsSetInitialPos(), and ParseNs2Line().

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◆ Integral()

◆ Ipv4L3ProtocolDropSinkWithContext() [1/2]

static void ns3::Ipv4L3ProtocolDropSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
const Ipv4Header & header,
Ptr< const Packet > packet,
Ipv4L3Protocol::DropReason reason,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Packet dropped callback with context.

Parameters
streamOutput stream.
contextContext.
headerIPv4 header.
packetPacket.
reasonPacket drop reason.
ipv4IPv4 stack.
interfaceInterface number.

Definition at line 127 of file click-internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::ClickInternetStackHelper::EnableAsciiIpv4Internal(), and ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv4L3ProtocolDropSinkWithContext() [2/2]

static void ns3::Ipv4L3ProtocolDropSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
const Ipv4Header & header,
Ptr< const Packet > packet,
Ipv4L3Protocol::DropReason reason,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 dropped packet - Ascii output.

Parameters
streamthe output stream
contextthe context
headerIPv4 header
packetsmart pointer to the packet
reasonthe reason for the dropping
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 669 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

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◆ Ipv4L3ProtocolDropSinkWithoutContext() [1/2]

static void ns3::Ipv4L3ProtocolDropSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
const Ipv4Header & header,
Ptr< const Packet > packet,
Ipv4L3Protocol::DropReason reason,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Packet dropped callback without context.

Parameters
streamOutput stream.
headerIPv4 header.
packetPacket.
reasonPacket drop reason.
ipv4IPv4 stack.
interfaceInterface number.

Definition at line 90 of file click-internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::ClickInternetStackHelper::EnableAsciiIpv4Internal(), and ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv4L3ProtocolDropSinkWithoutContext() [2/2]

static void ns3::Ipv4L3ProtocolDropSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
const Ipv4Header & header,
Ptr< const Packet > packet,
Ipv4L3Protocol::DropReason reason,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 dropped packet - Ascii output.

Parameters
streamthe output stream
headerIPv4 header
packetsmart pointer to the packet
reasonthe reason for the dropping
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 587 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

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◆ Ipv4L3ProtocolRxSinkWithContext()

static void ns3::Ipv4L3ProtocolRxSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > packet,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 received packet - Ascii output.

Parameters
streamthe output stream
contextthe context
packetsmart pointer to the packet
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 741 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv4L3ProtocolRxSinkWithoutContext()

static void ns3::Ipv4L3ProtocolRxSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > packet,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 received packet - Ascii output.

Parameters
streamthe output stream
packetsmart pointer to the packet
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 643 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv4L3ProtocolRxTxSink() [1/2]

static void ns3::Ipv4L3ProtocolRxTxSink ( Ptr< const Packet > p,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

IPv4 Rx / Tx packet callback.

Parameters
pPacket.
ipv4IPv4 stack.
interfaceInterface number.

Definition at line 58 of file click-internet-stack-helper.cc.

References g_interfaceFileMapIpv4, ns3::Simulator::Now(), NS_LOG_FUNCTION, and NS_LOG_INFO.

Referenced by ns3::ClickInternetStackHelper::EnablePcapIpv4Internal(), and ns3::InternetStackHelper::EnablePcapIpv4Internal().

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◆ Ipv4L3ProtocolRxTxSink() [2/2]

static void ns3::Ipv4L3ProtocolRxTxSink ( Ptr< const Packet > p,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 packet - Pcap output.

Parameters
psmart pointer to the packet
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 372 of file internet-stack-helper.cc.

References g_interfaceFileMapIpv4, ns3::Node::GetId(), ns3::Simulator::Now(), NS_LOG_FUNCTION, and NS_LOG_INFO.

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◆ Ipv4L3ProtocolTxSinkWithContext()

static void ns3::Ipv4L3ProtocolTxSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > packet,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 transmitted packet - Ascii output.

Parameters
streamthe output stream
contextthe context
packetsmart pointer to the packet
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 710 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv4L3ProtocolTxSinkWithoutContext()

static void ns3::Ipv4L3ProtocolTxSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > packet,
Ptr< Ipv4 > ipv4,
uint32_t interface )
static

Sync function for IPv4 transmitted packet - Ascii output.

Parameters
streamthe output stream
packetsmart pointer to the packet
ipv4smart pointer to the node's IPv4 stack
interfaceincoming interface

Definition at line 620 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv4, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv4Internal().

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◆ Ipv6L3ProtocolDropSinkWithContext()

static void ns3::Ipv6L3ProtocolDropSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
const Ipv6Header & header,
Ptr< const Packet > packet,
Ipv6L3Protocol::DropReason reason,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 dropped packet - Ascii output.

Parameters
streamthe output stream
contextthe context
headerIPv6 header
packetsmart pointer to the packet
reasonthe reason for the dropping
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 1013 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ Ipv6L3ProtocolDropSinkWithoutContext()

static void ns3::Ipv6L3ProtocolDropSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
const Ipv6Header & header,
Ptr< const Packet > packet,
Ipv6L3Protocol::DropReason reason,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 dropped packet - Ascii output.

Parameters
streamthe output stream
headerIPv6 header
packetsmart pointer to the packet
reasonthe reason for the dropping
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 931 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ Ipv6L3ProtocolRxSinkWithContext()

static void ns3::Ipv6L3ProtocolRxSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > packet,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 received packet - Ascii output.

Parameters
streamthe output stream
contextthe context
packetsmart pointer to the packet
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 1085 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ Ipv6L3ProtocolRxSinkWithoutContext()

static void ns3::Ipv6L3ProtocolRxSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > packet,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 received packet - Ascii output.

Parameters
streamthe output stream
packetsmart pointer to the packet
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 987 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ Ipv6L3ProtocolRxTxSink()

static void ns3::Ipv6L3ProtocolRxTxSink ( Ptr< const Packet > p,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 packet - Pcap output.

Parameters
psmart pointer to the packet
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 478 of file internet-stack-helper.cc.

References g_interfaceFileMapIpv6, ns3::Node::GetId(), ns3::Simulator::Now(), NS_LOG_FUNCTION, and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnablePcapIpv6Internal().

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◆ Ipv6L3ProtocolTxSinkWithContext()

static void ns3::Ipv6L3ProtocolTxSinkWithContext ( Ptr< OutputStreamWrapper > stream,
std::string context,
Ptr< const Packet > packet,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 transmitted packet - Ascii output.

Parameters
streamthe output stream
contextthe context
packetsmart pointer to the packet
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 1054 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ Ipv6L3ProtocolTxSinkWithoutContext()

static void ns3::Ipv6L3ProtocolTxSinkWithoutContext ( Ptr< OutputStreamWrapper > stream,
Ptr< const Packet > packet,
Ptr< Ipv6 > ipv6,
uint32_t interface )
static

Sync function for IPv6 transmitted packet - Ascii output.

Parameters
streamthe output stream
packetsmart pointer to the packet
ipv6smart pointer to the node's IPv6 stack
interfaceincoming interface

Definition at line 964 of file internet-stack-helper.cc.

References g_interfaceStreamMapIpv6, ns3::Node::GetId(), ns3::Time::GetSeconds(), ns3::Simulator::Now(), and NS_LOG_INFO.

Referenced by ns3::InternetStackHelper::EnableAsciiIpv6Internal().

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◆ IsAllowedControlAnswerModulationClass()

bool ns3::IsAllowedControlAnswerModulationClass ( WifiModulationClass modClassReq,
WifiModulationClass modClassAnswer )

Return whether the modulation class of the selected mode for the control answer frame is allowed.

Parameters
modClassReqmodulation class of the request frame
modClassAnswermodulation class of the answer frame
Returns
true if the modulation class of the selected mode for the control answer frame is allowed, false otherwise

Definition at line 126 of file wifi-phy-common.cc.

References NS_FATAL_ERROR, WIFI_MOD_CLASS_DSSS, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_ERP_OFDM, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HR_DSSS, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_OFDM, and WIFI_MOD_CLASS_VHT.

Referenced by ns3::WifiRemoteStationManager::GetControlAnswerMode().

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◆ IsDlMu()

bool ns3::IsDlMu ( WifiPreamble preamble)

Return true if a preamble corresponds to a downlink multi-user transmission.

Parameters
preamblethe preamble
Returns
true if the provided preamble corresponds to a downlink multi-user transmission

Definition at line 183 of file wifi-phy-common.cc.

References WIFI_PREAMBLE_EHT_MU, and WIFI_PREAMBLE_HE_MU.

Referenced by ns3::HeFrameExchangeManager::ForwardPsduMapDown(), ns3::WifiTxVector::GetRuAllocation(), ns3::HePhy::GetSigBMode(), ns3::EhtPhy::GetSigBSize(), ns3::HePhy::GetSigBSize(), ns3::HePpdu::GetTxDuration(), ns3::WifiTxVector::IsDlMu(), ns3::HePpdu::IsMu(), IsMu(), operator<<(), ns3::HePhy::ProcessSigB(), ns3::EhtPpdu::SetEhtPhyHeader(), ns3::HePpdu::SetHeSigHeader(), ns3::WifiTxVector::SetRuAllocation(), and ns3::EhtPpdu::SetTxVectorFromPhyHeaders().

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◆ IsEht()

bool ns3::IsEht ( WifiPreamble preamble)

Return true if a preamble corresponds to an EHT transmission.

Parameters
preamblethe preamble
Returns
true if the provided preamble corresponds to an EHT transmission

Definition at line 292 of file wifi-phy-common.cc.

References WIFI_PREAMBLE_EHT_MU, and WIFI_PREAMBLE_EHT_TB.

Referenced by TxDurationTest::CheckMuTxDuration(), TestMultiUserScheduler::ComputeWifiTxVector(), ns3::WifiDefaultAckManager::GetAckInfoIfAggregatedMuBar(), ns3::WifiDefaultAckManager::GetAckInfoIfTfMuBar(), ns3::EhtPhy::GetSigBSize(), ns3::WifiTxVector::IsDlMu(), ns3::WifiTxVector::IsDlMuMimo(), ns3::WifiTxVector::IsDlOfdma(), operator<<(), and ns3::WifiTxVector::SetEhtPpduType().

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◆ IsInWindow()

bool ns3::IsInWindow ( uint16_t seq,
uint16_t winstart,
uint16_t winsize )
Parameters
seqMPDU sequence number
winstartsequence number window start
winsizethe size of the sequence number window
Returns
true if in the window

This method checks if the MPDU's sequence number is inside the scoreboard boundaries or not

Definition at line 111 of file wifi-utils.cc.

Referenced by ns3::MpduAggregator::GetNextAmpdu(), ns3::QosTxop::GetNextMpdu(), and ns3::QosTxop::PeekNextMpdu().

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◆ IsMu()

bool ns3::IsMu ( WifiPreamble preamble)

Return true if a preamble corresponds to a multi-user transmission.

Parameters
preamblethe preamble
Returns
true if the provided preamble corresponds to a multi-user transmission

Definition at line 177 of file wifi-phy-common.cc.

References IsDlMu(), and IsUlMu().

Referenced by ns3::HePpdu::GetPsdu(), and ns3::HePpdu::PrintPayload().

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◆ isNaN()

bool ns3::isNaN ( double x)
inline

true if x is NaN

Parameters
x
Returns
whether x is NaN

Definition at line 26 of file data-calculator.h.

Referenced by ns3::OmnetDataOutput::OmnetOutputCallback::OutputStatistic(), and ns3::SqliteDataOutput::SqliteOutputCallback::OutputStatistic().

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◆ IsNumber()

bool ns3::IsNumber ( const std::string & s)
static

Checks if a string represents a number or it has others characters than digits and point.

Parameters
sthe string to check
Returns
true if the string represents a number

Definition at line 597 of file ns2-mobility-helper.cc.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements(), HasNodeIdNumber(), and IsVal().

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◆ IsSchedMobilityPos()

bool ns3::IsSchedMobilityPos ( ParseResult pr)
static

Check if this corresponds to a line like this: $ns_ at 1 "$node_(0) set X_ 2".

Parameters
prthe ParseResult to analyze
Returns
true if the ParseResult looks like a coordinate with a scheduled time

Definition at line 746 of file ns2-mobility-helper.cc.

References ns3::ParseResult::has_dval, NS2_AT, NS2_NS_SCH, NS2_SETDEST, and ns3::ParseResult::tokens.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ IsSchedSetPos()

bool ns3::IsSchedSetPos ( ParseResult pr)
static

Check if this corresponds to a line like this: $ns_ at 1 "$node_(0) setdest 2 3 4".

Parameters
prthe ParseResult to analyze
Returns
true if the ParseResult looks like a coordinate with a scheduled time and destination

Definition at line 734 of file ns2-mobility-helper.cc.

References ns3::ParseResult::has_dval, NS2_AT, NS2_NS_SCH, NS2_SET, NS2_X_COORD, NS2_Y_COORD, NS2_Z_COORD, and ns3::ParseResult::tokens.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ IsSetInitialPos()

bool ns3::IsSetInitialPos ( ParseResult pr)
static

Check if this corresponds to a line like this: $node_(0) set X_ 123.

Parameters
prthe ParseResult to analyze
Returns
true if the ParseResult looks like a coordinate without a scheduled time

Definition at line 722 of file ns2-mobility-helper.cc.

References ns3::ParseResult::has_dval, HasNodeIdNumber(), NS2_SET, NS2_X_COORD, NS2_Y_COORD, NS2_Z_COORD, and ns3::ParseResult::tokens.

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ IsTrigger() [1/2]

bool ns3::IsTrigger ( const WifiConstPsduMap & psduMap)
Parameters
psduMapa PSDU map
Returns
true if the given PSDU map contains a single PSDU including a single MPDU that carries a Trigger Frame

Definition at line 47 of file he-frame-exchange-manager.cc.

References SU_STA_ID.

◆ IsTrigger() [2/2]

bool ns3::IsTrigger ( const WifiPsduMap & psduMap)
Parameters
psduMapa PSDU map
Returns
true if the given PSDU map contains a single PSDU including a single MPDU that carries a Trigger Frame

Definition at line 39 of file he-frame-exchange-manager.cc.

References SU_STA_ID.

Referenced by EmlsrDlTxopTest::CheckResults(), ns3::HeFrameExchangeManager::SendPsduMapWithProtection(), and ns3::HeFrameExchangeManager::TbPpduTimeout().

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◆ IsUlMu()

bool ns3::IsUlMu ( WifiPreamble preamble)

Return true if a preamble corresponds to a uplink multi-user transmission.

Parameters
preamblethe preamble
Returns
true if the provided preamble corresponds to a uplink multi-user transmission

Definition at line 189 of file wifi-phy-common.cc.

References WIFI_PREAMBLE_EHT_TB, and WIFI_PREAMBLE_HE_TB.

Referenced by ns3::HePpdu::GetPsdu(), ns3::HePpdu::GetStaId(), ns3::HePhy::GetWifiConstPsduMap(), ns3::HePpdu::IsMu(), IsMu(), ns3::WifiTxVector::IsUlMu(), ns3::HePhy::RxPayloadSucceeded(), ns3::EhtPpdu::SetEhtPhyHeader(), ns3::HePpdu::SetHeSigHeader(), and ns3::EhtPpdu::SetTxVectorFromPhyHeaders().

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◆ IsVal() [1/2]

template<class T >
static bool ns3::IsVal ( const std::string & str,
T & ret )
static

Check if s string represents a numeric value.

Parameters
strstring to check
retnumeric value to return
Returns
true if string represents a numeric value

Definition at line 606 of file ns2-mobility-helper.cc.

References IsNumber().

Referenced by ParseNs2Line().

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◆ IsVal() [2/2]

template<class T >
bool ns3::IsVal ( const std::string & str,
T & ret )

Check if s string represents a numeric value.

Parameters
strstring to check
retnumeric value to return
Returns
true if string represents a numeric value

Definition at line 606 of file ns2-mobility-helper.cc.

References IsNumber().

Referenced by ParseNs2Line().

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◆ load_clicked_attribute()

void ns3::load_clicked_attribute ( GtkButton * button,
gpointer user_data )

If the user presses the button load, it will load the config file into memory for the Attributes.

Parameters
button(unused)
user_data

Definition at line 622 of file display-functions.cc.

References ns3::RawTextConfigLoad::Attributes(), and ns3::RawTextConfigLoad::SetFilename().

Referenced by ns3::GtkConfigStore::ConfigureAttributes().

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◆ load_clicked_default()

void ns3::load_clicked_default ( GtkButton * button,
gpointer user_data )

If the user presses the button load, it will load the config file into memory for the Default attributes.

Parameters
button(unused)
user_data

Definition at line 552 of file display-functions.cc.

References ns3::RawTextConfigLoad::Default(), and ns3::RawTextConfigLoad::SetFilename().

Referenced by ns3::GtkConfigStore::ConfigureDefaults().

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◆ Log()

SpectrumValue ns3::Log ( const SpectrumValue & arg)
Parameters
argthe argument
Returns
the logarithm in base e of all values in the argument

Definition at line 559 of file spectrum-value.cc.

◆ Log10()

SpectrumValue ns3::Log10 ( const SpectrumValue & arg)
Parameters
argthe argument
Returns
the logarithm in base 10 of all values in the argument

Definition at line 543 of file spectrum-value.cc.

◆ Log2()

SpectrumValue ns3::Log2 ( const SpectrumValue & arg)
Parameters
argthe argument
Returns
the logarithm in base 2 of all values in the argument

Definition at line 551 of file spectrum-value.cc.

Referenced by ns3::ShannonSpectrumErrorModel::EvaluateChunk().

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◆ LogComponentDisable()

void ns3::LogComponentDisable ( const std::string & name,
LogLevel level )

Disable the logging output associated with that log component.

The logging output can be later re-enabled with a call to LogComponentEnable.

Parameters
[in]nameThe log component name.
[in]levelThe logging level.

Definition at line 319 of file log.cc.

References ns3::LogComponent::GetComponentList().

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◆ LogComponentDisableAll()

void ns3::LogComponentDisableAll ( LogLevel level)

Disable all logging for all components.

Parameters
[in]levelThe logging level.

Definition at line 331 of file log.cc.

References ns3::LogComponent::GetComponentList().

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◆ LogComponentEnable()

void ns3::LogComponentEnable ( const std::string & name,
LogLevel level )

Enable the logging output associated with that log component.

The logging output can be later disabled with a call to ns3::LogComponentDisable.

Same as running your program with the NS_LOG environment variable set as NS_LOG='name=level'.

Parameters
[in]nameThe log component name.
[in]levelThe logging level.

Definition at line 291 of file log.cc.

References ns3::LogComponent::GetComponentList(), LogComponentPrintList(), NS_FATAL_ERROR, and NS_LOG_UNCOND.

Referenced by BuildingsPathlossTestSuite::BuildingsPathlossTestSuite(), BuildingsShadowingTestSuite::BuildingsShadowingTestSuite(), ItuR1411LosPropagationLossModelTestSuite::ItuR1411LosPropagationLossModelTestSuite(), ItuR1411NlosOverRooftopPropagationLossModelTestSuite::ItuR1411NlosOverRooftopPropagationLossModelTestSuite(), Kun2600MhzPropagationLossModelTestSuite::Kun2600MhzPropagationLossModelTestSuite(), LorawanTestSuite::LorawanTestSuite(), NetworkSchedulerTestSuite::NetworkSchedulerTestSuite(), NetworkServerTestSuite::NetworkServerTestSuite(), NetworkStatusTestSuite::NetworkStatusTestSuite(), OkumuraHataPropagationLossModelTestSuite::OkumuraHataPropagationLossModelTestSuite(), TypeIdTestSuite::TypeIdTestSuite(), CCAVulnerableWindowTest::DoRun(), EpsGtpuHeaderTestCase::DoRun(), LrWpanDataIfsTestCase::DoRun(), LrWpanPlmeAndPdInterfaceTestCase::DoRun(), Ns3TcpLossTestCase::DoRun(), Ns3TcpStateTestCase::DoRun(), TestRxOffWhenIdleAfterCsmaFailure::DoRun(), ns3::LrWpanHelper::EnableLogComponents(), ns3::LteHelper::EnableLogComponents(), ns3::LteSimpleHelper::EnableLogComponents(), ns3::MeshHelper::EnableLogComponents(), ns3::WifiHelper::EnableLogComponents(), ns3::WimaxHelper::EnableLogComponents(), and NeighborCacheExample::Run().

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◆ LogComponentEnableAll()

void ns3::LogComponentEnableAll ( LogLevel level)

Enable the logging output for all registered log components.

Same as running your program with the NS_LOG environment variable set as NS_LOG='*=level'

Parameters
[in]levelThe logging level.

Definition at line 309 of file log.cc.

References ns3::LogComponent::GetComponentList().

Referenced by NetworkServerTestSuite::NetworkServerTestSuite(), CCAVulnerableWindowTest::DoRun(), LrWpanDataIfsTestCase::DoRun(), LrWpanPlmeAndPdInterfaceTestCase::DoRun(), Ns3TcpLossTestCase::DoRun(), Ns3TcpStateTestCase::DoRun(), TestRxOffWhenIdleAfterCsmaFailure::DoRun(), ns3::LrWpanHelper::EnableLogComponents(), ns3::LteHelper::EnableLogComponents(), and ns3::WifiHelper::EnableLogComponents().

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◆ LogComponentPrintList()

void ns3::LogComponentPrintList ( )

Print the list of logging messages available.

Same as running your program with the NS_LOG environment variable set as NS_LOG=print-list

Definition at line 341 of file log.cc.

References ns3::LogComponent::GetComponentList(), LOG_DEBUG, LOG_ERROR, LOG_FUNCTION, LOG_INFO, LOG_LEVEL_ALL, LOG_LOGIC, LOG_PREFIX_ALL, LOG_PREFIX_FUNC, LOG_PREFIX_LEVEL, LOG_PREFIX_NODE, LOG_PREFIX_TIME, and LOG_WARN.

Referenced by ns3::PrintList::PrintList(), CheckEnvironmentVariables(), and LogComponentEnable().

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◆ LogGetNodePrinter()

NodePrinter ns3::LogGetNodePrinter ( )

Get the LogNodePrinter function currently in use.

Returns
The current LogNodePrinter function.

Definition at line 505 of file log.cc.

References g_logNodePrinter.

◆ LogGetTimePrinter()

TimePrinter ns3::LogGetTimePrinter ( )

Get the LogTimePrinter function currently in use.

Returns
The current LogTimePrinter function.

Definition at line 493 of file log.cc.

References g_logTimePrinter.

◆ LogSetNodePrinter()

void ns3::LogSetNodePrinter ( NodePrinter np)

Set the LogNodePrinter function to be used to prepend log messages with the node id.

The default is DefaultNodePrinter().

Parameters
[in]npThe LogNodePrinter function.

Definition at line 499 of file log.cc.

References g_logNodePrinter.

Referenced by ns3::Simulator::Destroy(), GetImpl(), and ns3::Simulator::SetImplementation().

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◆ LogSetTimePrinter()

void ns3::LogSetTimePrinter ( TimePrinter lp)

Set the TimePrinter function to be used to prepend log messages with the simulation time.

The default is DefaultTimePrinter().

Parameters
[in]lpThe TimePrinter function.
Internal:
This is the only place where we are more or less sure that all log variables are registered. See Bug 1082 for details.

Definition at line 481 of file log.cc.

References CheckEnvironmentVariables(), and g_logTimePrinter.

Referenced by ns3::Simulator::Destroy(), GetImpl(), anonymous_namespace{sample-log-time-format.cc}::ReplaceTimePrinter(), and ns3::Simulator::SetImplementation().

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◆ lookuphash()

static uint32_t ns3::lookuphash ( unsigned char * k,
uint32_t length,
uint32_t level )
static

Get a hash key.

Parameters
kthe key
lengththe length of the key
levelthe previous hash, or an arbitrary value
Returns
hash
Note
Adapted from Jens Jakobsen implementation (chillispot).

Definition at line 83 of file ipv6-address.cc.

References mixHashKey(), and NS_LOG_FUNCTION.

Referenced by ns3::Ipv6AddressHash::operator()().

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◆ LteSimpleHelperDlRxPduCallback()

void ns3::LteSimpleHelperDlRxPduCallback ( Ptr< RadioBearerStatsCalculator > rlcStats,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize,
uint64_t delay )

DL receive PDU callback.

Parameters
rlcStatsthe stats calculator
path
rntithe RNTI
lcidthe LCID
packetSizethe packet size
delaythe delay

Definition at line 265 of file lte-simple-helper.cc.

References NS_LOG_FUNCTION, and packetSize.

◆ LteSimpleHelperDlTxPduCallback()

void ns3::LteSimpleHelperDlTxPduCallback ( Ptr< RadioBearerStatsCalculator > rlcStats,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize )

DL transmit PDU callback.

Parameters
rlcStatsthe stats calculator
path
rntithe RNTI
lcidthe LCID
packetSizethe packet size

Definition at line 242 of file lte-simple-helper.cc.

References NS_LOG_FUNCTION, and packetSize.

◆ LteSimpleHelperUlRxPduCallback()

void ns3::LteSimpleHelperUlRxPduCallback ( Ptr< RadioBearerStatsCalculator > rlcStats,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize,
uint64_t delay )

UL receive PDU callback.

Parameters
rlcStatsthe stats calculator
path
rntithe RNTI
lcidthe LCID
packetSizethe packet size
delaythe delay

Definition at line 322 of file lte-simple-helper.cc.

References NS_LOG_FUNCTION, and packetSize.

◆ LteSimpleHelperUlTxPduCallback()

void ns3::LteSimpleHelperUlTxPduCallback ( Ptr< RadioBearerStatsCalculator > rlcStats,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize )

UL transmit PDU callback.

Parameters
rlcStatsthe stats calculator
path
rntithe RNTI
lcidthe LCID
packetSizethe packet size

Definition at line 299 of file lte-simple-helper.cc.

References NS_LOG_FUNCTION, and packetSize.

◆ MakeAddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeAddressAccessor ( T1 a1)

Definition at line 275 of file address.h.

Referenced by ns3::BulkSendApplication::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), ns3::Ping::GetTypeId(), ns3::ThreeGppHttpClient::GetTypeId(), ns3::ThreeGppHttpServer::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), and ns3::UdpTraceClient::GetTypeId().

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◆ MakeAddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeAddressAccessor ( T1 a1,
T2 a2 )

Definition at line 275 of file address.h.

◆ MakeAddressChecker()

Ptr< const AttributeChecker > ns3::MakeAddressChecker ( )

Definition at line 169 of file address.cc.

Referenced by ns3::BulkSendApplication::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), ns3::Ping::GetTypeId(), ns3::ThreeGppHttpClient::GetTypeId(), ns3::ThreeGppHttpServer::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), and ns3::UdpTraceClient::GetTypeId().

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◆ MakeBooleanAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeBooleanAccessor ( T1 a1)

Definition at line 70 of file boolean.h.

Referenced by AttributeObjectTest::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AdvancedApEmlsrManager::GetTypeId(), ns3::AdvancedEmlsrManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::ApWifiMac::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::BulkSendApplication::GetTypeId(), ns3::CalendarScheduler::GetTypeId(), ns3::ChannelAccessManager::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::ComponentCarrier::GetTypeId(), ns3::ConfigStore::GetTypeId(), ns3::CqaFfMacScheduler::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::DataCollectionObject::GetTypeId(), ns3::DefaultEmlsrManager::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerManagementProtocol::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::EmpiricalRandomVariable::GetTypeId(), ns3::ErrorModel::GetTypeId(), ns3::FdBetFfMacScheduler::GetTypeId(), ns3::FdMtFfMacScheduler::GetTypeId(), ns3::FdTbfqFfMacScheduler::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::HtConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4::GetTypeId(), ns3::Ipv4GlobalRouting::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv4RawSocketImpl::GetTypeId(), ns3::Ipv6::GetTypeId(), ns3::Ipv6L3Protocol::GetTypeId(), ns3::lorawan::AdrComponent::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanNetDevice::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrAlgorithm::GetTypeId(), ns3::LteFrSoftAlgorithm::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteSpectrumPhy::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUePowerControl::GetTypeId(), ns3::MeshWifiInterfaceMac::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::MockNetDevice::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), ns3::PcapFileWrapper::GetTypeId(), ns3::PfFfMacScheduler::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PssFfMacScheduler::GetTypeId(), ns3::QosFrameExchangeManager::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomBuildingPositionAllocator::GetTypeId(), ns3::RandomVariableStream::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrFfMacScheduler::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::SimpleNetDevice::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::SpectrumWifiPhy::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpDctcp::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpSocketState::GetTypeId(), ns3::TdBetFfMacScheduler::GetTypeId(), ns3::TdMtFfMacScheduler::GetTypeId(), ns3::TdTbfqFfMacScheduler::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppPropagationLossModel::GetTypeId(), ns3::TtaFfMacScheduler::GetTypeId(), ns3::UdpSocket::GetTypeId(), ns3::UdpTraceClient::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::VhtConfiguration::GetTypeId(), ns3::WaypointMobilityModel::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiDefaultProtectionManager::GetTypeId(), ns3::WifiMac::GetTypeId(), and ns3::WifiPhy::GetTypeId().

◆ MakeBooleanAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeBooleanAccessor ( T1 a1,
T2 a2 )

Definition at line 70 of file boolean.h.

◆ MakeBooleanChecker()

Ptr< const AttributeChecker > ns3::MakeBooleanChecker ( )

Definition at line 113 of file boolean.cc.

Referenced by AttributeObjectTest::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AdvancedApEmlsrManager::GetTypeId(), ns3::AdvancedEmlsrManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::ApWifiMac::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::BulkSendApplication::GetTypeId(), ns3::CalendarScheduler::GetTypeId(), ns3::ChannelAccessManager::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::ComponentCarrier::GetTypeId(), ns3::ConfigStore::GetTypeId(), ns3::CqaFfMacScheduler::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::DataCollectionObject::GetTypeId(), ns3::DefaultEmlsrManager::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerManagementProtocol::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::EmpiricalRandomVariable::GetTypeId(), ns3::ErrorModel::GetTypeId(), ns3::FdBetFfMacScheduler::GetTypeId(), ns3::FdMtFfMacScheduler::GetTypeId(), ns3::FdTbfqFfMacScheduler::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::HtConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4::GetTypeId(), ns3::Ipv4GlobalRouting::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv4RawSocketImpl::GetTypeId(), ns3::Ipv6::GetTypeId(), ns3::Ipv6L3Protocol::GetTypeId(), ns3::lorawan::AdrComponent::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanNetDevice::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrAlgorithm::GetTypeId(), ns3::LteFrSoftAlgorithm::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteSpectrumPhy::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUePowerControl::GetTypeId(), ns3::MeshWifiInterfaceMac::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::MockNetDevice::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), ns3::PcapFileWrapper::GetTypeId(), ns3::PfFfMacScheduler::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PssFfMacScheduler::GetTypeId(), ns3::QosFrameExchangeManager::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomBuildingPositionAllocator::GetTypeId(), ns3::RandomVariableStream::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrFfMacScheduler::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::SimpleNetDevice::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::SpectrumWifiPhy::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpDctcp::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpSocketState::GetTypeId(), ns3::TdBetFfMacScheduler::GetTypeId(), ns3::TdMtFfMacScheduler::GetTypeId(), ns3::TdTbfqFfMacScheduler::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppPropagationLossModel::GetTypeId(), ns3::TtaFfMacScheduler::GetTypeId(), ns3::UdpSocket::GetTypeId(), ns3::UdpTraceClient::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::VhtConfiguration::GetTypeId(), ns3::WaypointMobilityModel::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiDefaultProtectionManager::GetTypeId(), ns3::WifiMac::GetTypeId(), and ns3::WifiPhy::GetTypeId().

◆ MakeBoxAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeBoxAccessor ( T1 a1)

Definition at line 115 of file box.h.

Referenced by ns3::Building::GetTypeId(), and ns3::GaussMarkovMobilityModel::GetTypeId().

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◆ MakeBoxAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeBoxAccessor ( T1 a1,
T2 a2 )

Definition at line 115 of file box.h.

◆ MakeBoxChecker()

Ptr< const AttributeChecker > ns3::MakeBoxChecker ( )

Definition at line 191 of file box.cc.

Referenced by ns3::Building::GetTypeId(), and ns3::GaussMarkovMobilityModel::GetTypeId().

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◆ MakeCallback()

template<typename T , typename OBJ , typename R , typename... Args>
Callback< R, Args... > ns3::MakeCallback ( R(T::* memPtr )(Args...),
OBJ objPtr )

Build Callbacks for class method members which take varying numbers of arguments and potentially returning a value.

Template Parameters
T[deduced] Type of the class having the member function.
OBJ[deduced] Type of the class instance.
R[deduced] Return type of the callback.
Args[deduced] Type list of any arguments to the member function.
Parameters
[in]memPtrClass method member pointer
[in]objPtrClass instance
Returns
A wrapper Callback

Build Callbacks for class method members which take varying numbers of arguments and potentially returning a value.

Definition at line 684 of file callback.h.

Referenced by ns3::EpcEnbApplication::EpcEnbApplication(), ns3::EpcPgwApplication::EpcPgwApplication(), ns3::EpcSgwApplication::EpcSgwApplication(), ns3::Ipv4FlowProbe::Ipv4FlowProbe(), ns3::Ipv4L3Protocol::Ipv4L3Protocol(), ns3::Ipv6FlowProbe::Ipv6FlowProbe(), ns3::Ipv6L3Protocol::Ipv6L3Protocol(), ns3::lorawan::LoraRadioEnergyModel::LoraRadioEnergyModel(), ns3::aodv::Neighbors::Neighbors(), ns3::NoBackhaulEpcHelper::NoBackhaulEpcHelper(), ns3::PyViz::PyViz(), ns3::aodv::RoutingProtocol::RoutingProtocol(), TcpRateLinuxWithBufferTest::TcpRateLinuxWithBufferTest(), ns3::TcpSocketBase::TcpSocketBase(), ns3::TcpSocketBase::TcpSocketBase(), Tunnel::Tunnel(), ns3::WifiMac::WifiMac(), ns3::WifiRadioEnergyModel::WifiRadioEnergyModel(), ns3::BridgeNetDevice::AddBridgePort(), ns3::TypeId::AddConstructor(), ns3::Node::AddDevice(), ns3::Ipv4L3ClickProtocol::AddInterface(), ns3::Ipv4L3Protocol::AddInterface(), ns3::Ipv6L3Protocol::AddInterface(), ns3::MeshPointDevice::AddInterface(), ns3::QueueDisc::AddInternalQueue(), ns3::EpcSgwApplication::AddMme(), ns3::QueueDisc::AddQueueDiscClass(), ns3::EpcEnbApplication::AddS1Interface(), ns3::EpcMmeApplication::AddSgw(), ns3::OpenFlowSwitchNetDevice::AddSwitchPort(), ns3::EpcX2::AddX2Interface(), ns3::UanMacAloha::AttachPhy(), ns3::UanMacCw::AttachPhy(), ns3::UanMacRc::AttachPhy(), ns3::UanMacRcGw::AttachPhy(), TcpBytesInFlightTest::BeforeRTOExpired(), CallbackTestClass::CheckParentalRights(), ns3::aodv::AodvRqueueTest::CheckSizeLimit(), ns3::PacketSocket::Close(), ns3::lrwpan::LrWpanNetDevice::CompleteConfig(), ns3::WifiNetDevice::CompleteConfig(), ns3::ApplicationPacketProbe::ConnectByObject(), ns3::BooleanProbe::ConnectByObject(), ns3::DoubleProbe::ConnectByObject(), ns3::Ipv4PacketProbe::ConnectByObject(), ns3::Ipv6PacketProbe::ConnectByObject(), ns3::PacketProbe::ConnectByObject(), ns3::TimeProbe::ConnectByObject(), ns3::Uinteger16Probe::ConnectByObject(), ns3::Uinteger32Probe::ConnectByObject(), ns3::Uinteger8Probe::ConnectByObject(), ns3::ApplicationPacketProbe::ConnectByPath(), ns3::BooleanProbe::ConnectByPath(), ns3::DoubleProbe::ConnectByPath(), ns3::Ipv4PacketProbe::ConnectByPath(), ns3::Ipv6PacketProbe::ConnectByPath(), ns3::PacketProbe::ConnectByPath(), ns3::TimeProbe::ConnectByPath(), ns3::Uinteger16Probe::ConnectByPath(), ns3::Uinteger32Probe::ConnectByPath(), ns3::Uinteger8Probe::ConnectByPath(), ns3::AnimationInterface::ConnectCallbacks(), ns3::ThreeGppHttpClient::ConnectionSucceededCallback(), ns3::AnimationInterface::ConnectLteEnb(), ns3::AnimationInterface::ConnectLteUe(), ns3::FileHelper::ConnectProbeToAggregator(), ns3::GnuplotHelper::ConnectProbeToAggregator(), ns3::NetDeviceQueue::ConnectQueueTraces(), ConnectSocketTraces(), TestCounter::ConnectTraces(), ns3::ConstantObssPdAlgorithm::ConnectWifiNetDevice(), ns3::DsrHelper::Create(), ns3::SpectrumWifiPhyHelper::Create(), ns3::ArpL3Protocol::CreateCache(), ns3::Icmpv6L4Protocol::CreateCache(), Bug772ChainTest::CreateDevices(), ns3::DsssPhy::CreateDsssMode(), ns3::EhtPhy::CreateEhtMcs(), ns3::ErpOfdmPhy::CreateErpOfdmMode(), ns3::HePhy::CreateHeMcs(), ns3::HtPhy::CreateHtMcs(), ns3::olsr::Bug780Test::CreateNodes(), ns3::olsr::HelloRegressionTest::CreateNodes(), ns3::olsr::TcRegressionTest::CreateNodes(), ns3::OfdmPhy::CreateOfdmMode(), ns3::QosTxop::CreateQueue(), ns3::TcpCloseWithLossTestCase::CreateReceiverErrorModel(), TcpBytesInFlightTest::CreateReceiverErrorModel(), TcpFastRetrTest::CreateReceiverErrorModel(), TcpRateLinuxWithSocketsTest::CreateReceiverErrorModel(), TcpSsThreshRtoTest::CreateReceiverErrorModel(), TcpTimeRtoTest::CreateReceiverErrorModel(), TcpAdvertisedWindowTest::CreateReceiverSocket(), TcpAdvWindowOnLossTest::CreateReceiverSocket(), TcpPktsAckedOpenTest::CreateSenderSocket(), ThreeGppHttpObjectTestCase::CreateSimpleInternetNode(), ns3::VhtPhy::CreateVhtMcs(), BasicEnergyDepletionTest::DepletionTestCase(), CobaltQueueDiscMarkTest::Dequeue(), CoDelQueueDiscBasicDrop::Dequeue(), CoDelQueueDiscBasicMark::Dequeue(), FqCobaltQueueDiscEcnMarking::Dequeue(), ns3::PacketSocket::DoBind(), ns3::AdvancedApEmlsrManager::DoDispose(), ns3::AdvancedEmlsrManager::DoDispose(), ns3::EmlsrManager::DoDispose(), ns3::RrMultiUserScheduler::DoDispose(), ns3::ApWifiMac::DoInitialize(), ns3::olsr::RoutingProtocol::DoInitialize(), ns3::Rip::DoInitialize(), ns3::RipNg::DoInitialize(), ns3::RrMultiUserScheduler::DoInitialize(), ns3::StaWifiMac::DoInitialize(), ns3::AcousticModemEnergyModelHelper::DoInstall(), ns3::WifiRadioEnergyModelHelper::DoInstall(), UanTest::DoOnePhyTest(), AcousticModemEnergyDepletionTestCase::DoRun(), AcousticModemEnergyTestCase::DoRun(), AidAssignmentTest::DoRun(), AmpduAggregationTest::DoRun(), BasicTracedCallbackTestCase::DoRun(), BlockAckAggregationDisabledTest::DoRun(), BlockAckRecipientBufferTest::DoRun(), Bug2222TestCase::DoRun(), Bug2831TestCase::DoRun(), Bug2843TestCase::DoRun(), Bug730TestCase::DoRun(), BulkSendBasicTestCase::DoRun(), BulkSendSeqTsSizeTestCase::DoRun(), BurstErrorModelSimple::DoRun(), CallbackEqualityTestCase::DoRun(), CallbackValueTestCase::DoRun(), CarrierAggregationConfigTestCase::DoRun(), CCAVulnerableWindowTest::DoRun(), CsmaBridgeTestCase::DoRun(), CsmaBroadcastTestCase::DoRun(), CsmaMulticastTestCase::DoRun(), CsmaOneSubnetTestCase::DoRun(), CsmaPacketSocketTestCase::DoRun(), CsmaPingTestCase::DoRun(), CsmaRawIpSocketTestCase::DoRun(), CsmaStarTestCase::DoRun(), DcfImmediateAccessBroadcastTestCase::DoRun(), DhcpTestCase::DoRun(), DownlinkPacketTest::DoRun(), DsssModulationTest::DoRun(), DualStackTestCase::DoRun(), DynamicNeighborCacheTest::DoRun(), ErrorModelSimple::DoRun(), IcmpEchoReplyTestCase::DoRun(), IcmpTimeExceedTestCase::DoRun(), IcmpV6EchoReplyTestCase::DoRun(), IcmpV6TimeExceedTestCase::DoRun(), IdealRateManagerChannelWidthTest::DoRun(), IdealRateManagerMimoTest::DoRun(), IntegerTraceSourceTestCase::DoRun(), Ipv4DeduplicationTest::DoRun(), Ipv4DynamicGlobalRoutingTestCase::DoRun(), Ipv4ForwardingTest::DoRun(), Ipv4GlobalRoutingSlash32TestCase::DoRun(), Ipv4HeaderTest::DoRun(), Ipv4PacketInfoTagTest::DoRun(), Ipv4RawSocketImplTest::DoRun(), Ipv4RipCountToInfinityTest::DoRun(), Ipv4RipSplitHorizonStrategyTest::DoRun(), Ipv4RipTest::DoRun(), Ipv4StaticRoutingSlash32TestCase::DoRun(), Ipv6ForwardingTest::DoRun(), Ipv6FragmentationTest::DoRun(), Ipv6PacketInfoTagTest::DoRun(), Ipv6RawSocketImplTest::DoRun(), Ipv6RipngCountToInfinityTest::DoRun(), Ipv6RipngSplitHorizonStrategyTest::DoRun(), Ipv6RipngTest::DoRun(), Issue169TestCase::DoRun(), LinkCheckTest::DoRun(), LrWpanAckTestCase::DoRun(), LrWpanCollisionTestCase::DoRun(), LrWpanEdTestCase::DoRun(), LrWpanErrorDistanceTestCase::DoRun(), LrWpanPlmeAndPdInterfaceTestCase::DoRun(), LteCellSelectionTestCase::DoRun(), LteDownlinkCtrlSinrTestCase::DoRun(), LteDownlinkDataSinrTestCase::DoRun(), LteDownlinkPowerControlTestCase::DoRun(), LteEnbAntennaTestCase::DoRun(), LteHandoverDelayTestCase::DoRun(), LteHandoverFailureTestCase::DoRun(), LteHandoverTargetTestCase::DoRun(), LteInterferenceHardFrTestCase::DoRun(), LteInterferenceStrictFrTestCase::DoRun(), LteInterferenceTestCase::DoRun(), LteIpv6RoutingTestCase::DoRun(), LteLinkAdaptationTestCase::DoRun(), LtePathlossModelSystemTestCase::DoRun(), LtePrimaryCellChangeTestCase::DoRun(), LteRadioLinkFailureTestCase::DoRun(), LteRlcAmE2eTestCase::DoRun(), LteRlcUmE2eTestCase::DoRun(), LteRrcConnectionEstablishmentErrorTestCase::DoRun(), LteRrcConnectionEstablishmentTestCase::DoRun(), LteSecondaryCellHandoverTestCase::DoRun(), LteSecondaryCellSelectionTestCase::DoRun(), LteUeMeasurementsHandoverTestCase::DoRun(), LteUeMeasurementsPiecewiseTestCase1::DoRun(), LteUeMeasurementsPiecewiseTestCase2::DoRun(), LteUeMeasurementsPiecewiseTestCase3::DoRun(), LteUplinkDataSinrTestCase::DoRun(), LteUplinkSrsSinrTestCase::DoRun(), MakeCallbackTemplatesTestCase::DoRun(), MakeCallbackTestCase::DoRun(), NixVectorRoutingTest::DoRun(), Ns2MobilityHelperTest::DoRun(), ns3::aodv::AodvRqueueTest::DoRun(), ns3::aodv::LoopbackTestCase::DoRun(), ns3::aodv::NeighborTest::DoRun(), ns3::aodv::QueueEntryTest::DoRun(), ns3::TcpGeneralTest::DoRun(), ns3::tests::ObjectVectorTraceConfigTestCase::DoRun(), Ns3TcpLossTestCase::DoRun(), Ns3TcpNoDelayTestCase::DoRun(), Ns3TcpSocketTestCaseCsma::DoRun(), Ns3TcpSocketTestCaseP2P::DoRun(), Ns3TcpStateTestCase::DoRun(), NullifyCallbackTestCase::DoRun(), OfdmaAckSequenceTest::DoRun(), PacketSocketAppsTest::DoRun(), PingTestCase::DoRun(), PointToPointTest::DoRun(), PreservePacketsInAmpdus::DoRun(), ProbeTestCase1::DoRun(), QosFragmentationTestCase::DoRun(), SequenceNumberTestCase::DoRun(), SixlowpanHc1ImplTest::DoRun(), SixlowpanIphcImplTest::DoRun(), SixlowpanIphcStatefulImplTest::DoRun(), SpectrumIdealPhyTestCase::DoRun(), TcpEndPointBug2211Test::DoRun(), TcpHyblaIncrementTest::DoRun(), TcpSynConnectionFailedTest::DoRun(), TestActiveScanPanDescriptors::DoRun(), TestOrphanScan::DoRun(), TestRxOffWhenIdleAfterCsmaFailure::DoRun(), TestUnsupportedModulationReception::DoRun(), ThreeGppHttpObjectTestCase::DoRun(), TracedCallbackTestCase::DoRun(), Udp6SocketImplTest::DoRun(), Udp6SocketLoopbackTest::DoRun(), UdpSocketImplTest::DoRun(), UdpSocketLoopbackTest::DoRun(), UplinkPacketTest::DoRun(), WaveformGeneratorTestCase::DoRun(), WaypointMobilityModelAddWaypointTest::DoRun(), WaypointMobilityModelNotifyTest::DoRun(), WifiChannelSwitchingTest::DoRun(), WifiPrimaryChannelsTest::DoRun(), WifiTxopTest::DoRun(), WifiUseAvailBwTest::DoRun(), AidAssignmentTest::DoSetup(), BackoffGenerationTest::DoSetup(), EmlOmnExchangeTest::DoSetup(), EmlsrOperationsTestBase::DoSetup(), EmlsrUlTxopTest::DoSetup(), MultiLinkOperationsTestBase::DoSetup(), OrigBlockAckWindowStalled::DoSetup(), SpectrumWifiPhy80Plus80Test::DoSetup(), SpectrumWifiPhyBasicTest::DoSetup(), SpectrumWifiPhyFilterTest::DoSetup(), SpectrumWifiPhyMultipleInterfacesTest::DoSetup(), TestAmpduReception::DoSetup(), TestDlMuMimoPhyTransmission::DoSetup(), TestDlOfdmaPhyPuncturing::DoSetup(), TestDlOfdmaPhyTransmission::DoSetup(), TestMultipleCtsResponsesFromMuRts::DoSetup(), TestMultipleHeTbPreambles::DoSetup(), TestNonHtDuplicatePhyReception::DoSetup(), TestPhyDropDueToTx::DoSetup(), TestPhyPaddingExclusion::DoSetup(), TestSimpleFrameCaptureModel::DoSetup(), TestSpectrumChannelWithBandwidthFilter::DoSetup(), TestThresholdPreambleDetectionWithFrameCapture::DoSetup(), TestThresholdPreambleDetectionWithoutFrameCapture::DoSetup(), TestUlMuMimoPhyTransmission::DoSetup(), TestUlOfdmaPhyTransmission::DoSetup(), TestUlOfdmaPpduUid::DoSetup(), TestUnsupportedBandwidthReception::DoSetup(), WifiFilsFrameTest::DoSetup(), WifiPhyThresholdsTest::DoSetup(), ns3::AdvancedApEmlsrManager::DoSetWifiMac(), ns3::AdvancedEmlsrManager::DoSetWifiMac(), ns3::WifiPhyRxTraceHelper::Enable(), ns3::AthstatsHelper::EnableAthstats(), ns3::ClickInternetStackHelper::EnablePcapIpv4Internal(), ns3::InternetStackHelper::EnablePcapIpv4Internal(), ns3::InternetStackHelper::EnablePcapIpv6Internal(), ns3::UdpSocketImpl::FinishBind(), ns3::MeshPointDevice::Forward(), ns3::PacketSink::HandleAccept(), ns3::TcpGeneralTest::HandleAccept(), TcpEndPointBug2211Test::HandleAccept(), ns3::dot11s::PeerManagementProtocol::InitiateLink(), ns3::AdhocAlohaNoackIdealPhyHelper::Install(), ns3::dot11s::HwmpProtocol::Install(), ns3::lorawan::LoraHelper::Install(), ns3::PointToPointHelper::Install(), MeshTest::InstallApplication(), FlameRegressionTest::InstallApplications(), HwmpDoRfRegressionTest::InstallApplications(), HwmpProactiveRegressionTest::InstallApplications(), HwmpReactiveRegressionTest::InstallApplications(), HwmpSimplestRegressionTest::InstallApplications(), ns3::lorawan::ForwarderHelper::InstallPriv(), ns3::lorawan::NetworkServerHelper::InstallPriv(), ns3::LteHelper::InstallSingleEnbDevice(), ns3::LteSimpleHelper::InstallSingleEnbDevice(), ns3::LteHelper::InstallSingleUeDevice(), ns3::LteSimpleHelper::InstallSingleUeDevice(), ns3::Dot11sStack::InstallStack(), TracedCallbackTypedefTestCase::Checker< Ts >::Invoke(), TracedValueCallbackTestCase::CheckTvCb< T >::Invoke(), ns3::DhcpClient::LinkStateHandler(), ns3::ThreeGppHttpServer::NewConnectionCreatedCallback(), ns3::aodv::RoutingProtocol::NotifyAddAddress(), ns3::dsdv::RoutingProtocol::NotifyAddAddress(), ns3::aodv::RoutingProtocol::NotifyInterfaceDown(), ns3::aodv::RoutingProtocol::NotifyInterfaceUp(), ns3::dsdv::RoutingProtocol::NotifyInterfaceUp(), ns3::Rip::NotifyInterfaceUp(), ns3::RipNg::NotifyInterfaceUp(), ns3::dsr::DsrRouting::NotifyNewAggregate(), ns3::Icmpv4L4Protocol::NotifyNewAggregate(), ns3::Icmpv6L4Protocol::NotifyNewAggregate(), ns3::TcpL4Protocol::NotifyNewAggregate(), ns3::UdpL4Protocol::NotifyNewAggregate(), ns3::aodv::RoutingProtocol::NotifyRemoveAddress(), ns3::dsdv::RoutingProtocol::NotifyRemoveAddress(), ns3::ThreeGppHttpClient::OpenConnection(), ns3::NeighborCacheHelper::PopulateNeighborEntriesIpv4(), ns3::NeighborCacheHelper::PopulateNeighborEntriesIpv6(), ns3::TcpSocketBase::ProcessOptionSack(), ns3::TcpSocketBase::ReceivedAck(), ns3::PyViz::RegisterCsmaLikeDevice(), ns3::PyViz::RegisterDropTracePath(), ns3::PyViz::RegisterPointToPointLikeDevice(), ns3::Node::RegisterProtocolHandler(), ns3::PyViz::RegisterWifiLikeDevice(), TestUlOfdmaPowerControl::ReplaceReceiveOkCallbackOfAp(), PhyConnectivityTest::Reset(), ns3::FrameExchangeManager::ResetPhy(), CollisionExperiment::Run(), Experiment::Run(), Experiment::Run(), Experiment::Run(), InterferenceExperiment::Run(), NeighborCacheExample::Run(), NetAnimExperiment::Run(), PsrExperiment::Run(), Issue40TestCase::RunOne(), TestInterBssConstantObssPdAlgo::RunOne(), Bug2470TestCase::RunSubtest(), ns3::TrafficControlLayer::ScanDevices(), ScheduleFirstPacketSinkConnection(), ScheduleN0PacketSinkConnection(), ScheduleN1PacketSinkConnection(), ScheduleSecondPacketSinkConnection(), ns3::MeshPointDevice::Send(), ns3::MeshPointDevice::SendFrom(), TcpTestCase::ServerHandleConnectionCreated(), ns3::TapBridge::SetBridgedNetDevice(), ns3::HierarchicalMobilityModel::SetChild(), ns3::WifiMac::SetFrameExchangeManagers(), ns3::UanNetDevice::SetMac(), ns3::SixLowPanNetDevice::SetNetDevice(), ns3::dot11s::PeerManagementProtocolMac::SetParent(), ns3::HierarchicalMobilityModel::SetParent(), ns3::lorawan::LorawanMac::SetPhy(), ns3::Ipv4L3ClickProtocol::SetPromisc(), ns3::WimaxNetDevice::SetReceiveCallback(), StaWifiMacScanningTestCase::Setup(), UanExperiment::SetupApplications(), ns3::TcpSocketBase::SetupCallback(), ns3::WifiMac::SetupDcfQueue(), TcpTestCase::SetupDefaultSim(), TcpTestCase::SetupDefaultSim6(), ns3::WifiMac::SetupEdcaQueue(), ns3::Ipv4L3ClickProtocol::SetupLoopback(), ns3::Ipv4L3Protocol::SetupLoopback(), ns3::Ipv6L3Protocol::SetupLoopback(), DsdvManetExample::SetupPacketReceive(), Experiment::SetupPacketReceive(), RoutingExperiment::SetupPacketReceive(), SetupPacketReceive(), ns3::EmlsrManager::SetWifiMac(), ns3::FrameExchangeManager::SetWifiPhy(), ns3::StaWifiMac::SetWifiPhys(), ns3::dsdv::RoutingProtocol::Start(), ns3::dsr::DsrRouting::Start(), ns3::BulkSendApplication::StartApplication(), ns3::DhcpClient::StartApplication(), ns3::DhcpServer::StartApplication(), ns3::OnOffApplication::StartApplication(), ns3::PacketSink::StartApplication(), ns3::PacketSocketServer::StartApplication(), ns3::Ping::StartApplication(), ns3::Radvd::StartApplication(), ns3::ThreeGppHttpServer::StartApplication(), ns3::UdpEchoClient::StartApplication(), ns3::UdpEchoServer::StartApplication(), ns3::UdpServer::StartApplication(), ns3::V4TraceRoute::StartApplication(), Receiver::StartApplication(), Ipv4FragmentationTest::StartClient(), Ipv6FragmentationTest::StartClient(), SixlowpanFragmentationTest::StartClient(), ns3::FdNetDevice::StartDevice(), Ns3TcpLossTestCase::StartFlow(), Ns3TcpStateTestCase::StartFlow(), StartFlow(), StartFlow(), ns3::SSLinkManager::StartScanning(), Ipv4FragmentationTest::StartServer(), Ipv6FragmentationTest::StartServer(), SixlowpanFragmentationTest::StartServer(), ns3::TapBridge::StartTapDevice(), TcpTxBufferTestCase::TestIsLost(), TcpTxBufferTestCase::TestNewBlock(), TcpTxBufferTestCase::TestNextSeg(), TcpRateLinuxWithBufferTest::TestWithSackBlocks(), TraceCwnd(), TraceInFlight(), TraceNextRx(), TraceNextTx(), TraceRto(), TraceRtt(), TraceSsThresh(), and OfdmaAckSequenceTest::Transmit().

◆ MakeCallbackAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeCallbackAccessor ( T1 a1)

Definition at line 818 of file callback.h.

Referenced by AttributeObjectTest::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), and ns3::UdpSocketImpl::GetTypeId().

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◆ MakeCallbackAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeCallbackAccessor ( T1 a1,
T2 a2 )

Definition at line 818 of file callback.h.

◆ MakeCallbackChecker()

Ptr< const AttributeChecker > ns3::MakeCallbackChecker ( )

Definition at line 77 of file callback.cc.

Referenced by AttributeObjectTest::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), and ns3::UdpSocketImpl::GetTypeId().

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◆ MakeDataRateAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeDataRateAccessor ( T1 a1)

◆ MakeDataRateAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeDataRateAccessor ( T1 a1,
T2 a2 )

Definition at line 285 of file data-rate.h.

◆ MakeDataRateChecker()

Ptr< const AttributeChecker > ns3::MakeDataRateChecker ( )

◆ MakeDoubleAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeDoubleAccessor ( T1 a1)

Definition at line 32 of file double.h.

Referenced by AttributeObjectTest::GetTypeId(), ns3::A3RsrpHandoverAlgorithm::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AarfWifiManager::GetTypeId(), ns3::AcousticModemEnergyModel::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::BernoulliRandomVariable::GetTypeId(), ns3::BinomialRandomVariable::GetTypeId(), ns3::BuildingsPropagationLossModel::GetTypeId(), ns3::BurstErrorModel::GetTypeId(), ns3::CircularApertureAntennaModel::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::ConstantRandomVariable::GetTypeId(), ns3::ConstantSpectrumPropagationLossModel::GetTypeId(), ns3::ConstantSpeedPropagationDelayModel::GetTypeId(), ns3::CosineAntennaModel::GetTypeId(), ns3::Cost231PropagationLossModel::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::energy::BasicEnergySource::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::energy::LiIonEnergySource::GetTypeId(), ns3::energy::RvBatteryModel::GetTypeId(), ns3::ErlangRandomVariable::GetTypeId(), ns3::ExponentialRandomVariable::GetTypeId(), ns3::FixedRssLossModel::GetTypeId(), ns3::FlowMonitor::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::FriisPropagationLossModel::GetTypeId(), ns3::GammaRandomVariable::GetTypeId(), ns3::GaussMarkovMobilityModel::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HexGridPositionAllocator::GetTypeId(), ns3::HybridBuildingsPropagationLossModel::GetTypeId(), ns3::IdealWifiManager::GetTypeId(), ns3::IsotropicAntennaModel::GetTypeId(), ns3::ItuR1238PropagationLossModel::GetTypeId(), ns3::ItuR1411LosPropagationLossModel::GetTypeId(), ns3::ItuR1411NlosOverRooftopPropagationLossModel::GetTypeId(), ns3::JakesProcess::GetTypeId(), ns3::LaplacianRandomVariable::GetTypeId(), ns3::LargestExtremeValueRandomVariable::GetTypeId(), ns3::LinearWifiTxCurrentModel::GetTypeId(), ns3::LogDistancePropagationLossModel::GetTypeId(), ns3::LogNormalRandomVariable::GetTypeId(), ns3::lorawan::ConstantLoraTxCurrentModel::GetTypeId(), ns3::lorawan::CorrelatedShadowingPropagationLossModel::GetTypeId(), ns3::lorawan::LinearLoraTxCurrentModel::GetTypeId(), ns3::lorawan::LoraRadioEnergyModel::GetTypeId(), ns3::LteAmc::GetTypeId(), ns3::LteEnbPhy::GetTypeId(), ns3::LteHexGridEnbTopologyHelper::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUePowerControl::GetTypeId(), ns3::MatrixPropagationLossModel::GetTypeId(), ns3::NakagamiPropagationLossModel::GetTypeId(), ns3::NormalRandomVariable::GetTypeId(), ns3::NullMessageSimulatorImpl::GetTypeId(), ns3::ObssPdAlgorithm::GetTypeId(), ns3::OkumuraHataPropagationLossModel::GetTypeId(), ns3::ParabolicAntennaModel::GetTypeId(), ns3::ParetoRandomVariable::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomDiscPositionAllocator::GetTypeId(), ns3::RandomRectanglePositionAllocator::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RangePropagationLossModel::GetTypeId(), ns3::RateErrorModel::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::RttMeanDeviation::GetTypeId(), ns3::SequentialRandomVariable::GetTypeId(), ns3::SimpleFrameCaptureModel::GetTypeId(), ns3::SimpleOfdmWimaxPhy::GetTypeId(), ns3::SnrTag::GetTypeId(), ns3::SpectrumAnalyzer::GetTypeId(), ns3::SpectrumChannel::GetTypeId(), ns3::SpectrumWifiPhy::GetTypeId(), ns3::SteadyStateRandomWaypointMobilityModel::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpDctcp::GetTypeId(), ns3::TcpHtcp::GetTypeId(), ns3::TcpIllinois::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpScalable::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::ThompsonSamplingWifiManager::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::ThreeGppPropagationLossModel::GetTypeId(), ns3::ThreeGppRmaPropagationLossModel::GetTypeId(), ns3::ThreeGppV2vUrbanPropagationLossModel::GetTypeId(), ns3::ThreeLogDistancePropagationLossModel::GetTypeId(), ns3::ThresholdPreambleDetectionModel::GetTypeId(), ns3::TriangularRandomVariable::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::TwoRayGroundPropagationLossModel::GetTypeId(), ns3::TwoRaySpectrumPropagationLossModel::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UanNoiseModelDefault::GetTypeId(), ns3::UanPhyDual::GetTypeId(), ns3::UanPhyGen::GetTypeId(), ns3::UanPhyPerGenDefault::GetTypeId(), ns3::UanPropModelThorp::GetTypeId(), ns3::UanTransducerHd::GetTypeId(), ns3::UniformDiscPositionAllocator::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::UniformRandomVariable::GetTypeId(), ns3::WaveformGenerator::GetTypeId(), ns3::WeibullRandomVariable::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRadioEnergyModel::GetTypeId(), ns3::ZetaRandomVariable::GetTypeId(), and ns3::ZipfRandomVariable::GetTypeId().

◆ MakeDoubleAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeDoubleAccessor ( T1 a1,
T2 a2 )

Definition at line 32 of file double.h.

◆ MakeDoubleChecker() [1/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeDoubleChecker ( )

Definition at line 82 of file double.h.

References ns3::internal::MakeDoubleChecker(), and TypeNameGet().

Referenced by AttributeContainerSerializationTestCase::DoRun(), AttributeContainerObject::GetTypeId(), AttributeObjectTest::GetTypeId(), ns3::A3RsrpHandoverAlgorithm::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AarfWifiManager::GetTypeId(), ns3::AcousticModemEnergyModel::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::BernoulliRandomVariable::GetTypeId(), ns3::BinomialRandomVariable::GetTypeId(), ns3::BuildingsPropagationLossModel::GetTypeId(), ns3::BurstErrorModel::GetTypeId(), ns3::CircularApertureAntennaModel::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::ConstantRandomVariable::GetTypeId(), ns3::ConstantSpectrumPropagationLossModel::GetTypeId(), ns3::ConstantSpeedPropagationDelayModel::GetTypeId(), ns3::CosineAntennaModel::GetTypeId(), ns3::Cost231PropagationLossModel::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::energy::BasicEnergySource::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::energy::LiIonEnergySource::GetTypeId(), ns3::energy::RvBatteryModel::GetTypeId(), ns3::ErlangRandomVariable::GetTypeId(), ns3::ExponentialRandomVariable::GetTypeId(), ns3::FixedRssLossModel::GetTypeId(), ns3::FlowMonitor::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::FriisPropagationLossModel::GetTypeId(), ns3::GammaRandomVariable::GetTypeId(), ns3::GaussMarkovMobilityModel::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HexGridPositionAllocator::GetTypeId(), ns3::HybridBuildingsPropagationLossModel::GetTypeId(), ns3::IdealWifiManager::GetTypeId(), ns3::IsotropicAntennaModel::GetTypeId(), ns3::ItuR1238PropagationLossModel::GetTypeId(), ns3::ItuR1411LosPropagationLossModel::GetTypeId(), ns3::ItuR1411NlosOverRooftopPropagationLossModel::GetTypeId(), ns3::JakesProcess::GetTypeId(), ns3::LaplacianRandomVariable::GetTypeId(), ns3::LargestExtremeValueRandomVariable::GetTypeId(), ns3::LinearWifiTxCurrentModel::GetTypeId(), ns3::LogDistancePropagationLossModel::GetTypeId(), ns3::LogNormalRandomVariable::GetTypeId(), ns3::lorawan::ConstantLoraTxCurrentModel::GetTypeId(), ns3::lorawan::CorrelatedShadowingPropagationLossModel::GetTypeId(), ns3::lorawan::LinearLoraTxCurrentModel::GetTypeId(), ns3::lorawan::LoraRadioEnergyModel::GetTypeId(), ns3::LteAmc::GetTypeId(), ns3::LteEnbPhy::GetTypeId(), ns3::LteHexGridEnbTopologyHelper::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUePowerControl::GetTypeId(), ns3::MatrixPropagationLossModel::GetTypeId(), ns3::NakagamiPropagationLossModel::GetTypeId(), ns3::NormalRandomVariable::GetTypeId(), ns3::NullMessageSimulatorImpl::GetTypeId(), ns3::ObssPdAlgorithm::GetTypeId(), ns3::OkumuraHataPropagationLossModel::GetTypeId(), ns3::ParabolicAntennaModel::GetTypeId(), ns3::ParetoRandomVariable::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomDiscPositionAllocator::GetTypeId(), ns3::RandomRectanglePositionAllocator::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RangePropagationLossModel::GetTypeId(), ns3::RateErrorModel::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::RttMeanDeviation::GetTypeId(), ns3::SequentialRandomVariable::GetTypeId(), ns3::SimpleFrameCaptureModel::GetTypeId(), ns3::SimpleOfdmWimaxPhy::GetTypeId(), ns3::SnrTag::GetTypeId(), ns3::SpectrumAnalyzer::GetTypeId(), ns3::SpectrumChannel::GetTypeId(), ns3::SpectrumWifiPhy::GetTypeId(), ns3::SteadyStateRandomWaypointMobilityModel::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpDctcp::GetTypeId(), ns3::TcpHtcp::GetTypeId(), ns3::TcpIllinois::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpScalable::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::ThompsonSamplingWifiManager::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::ThreeGppPropagationLossModel::GetTypeId(), ns3::ThreeGppRmaPropagationLossModel::GetTypeId(), ns3::ThreeGppV2vUrbanPropagationLossModel::GetTypeId(), ns3::ThreeLogDistancePropagationLossModel::GetTypeId(), ns3::ThresholdPreambleDetectionModel::GetTypeId(), ns3::TriangularRandomVariable::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::TwoRayGroundPropagationLossModel::GetTypeId(), ns3::TwoRaySpectrumPropagationLossModel::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UanNoiseModelDefault::GetTypeId(), ns3::UanPhyDual::GetTypeId(), ns3::UanPhyGen::GetTypeId(), ns3::UanPhyPerGenDefault::GetTypeId(), ns3::UanPropModelThorp::GetTypeId(), ns3::UanTransducerHd::GetTypeId(), ns3::UniformDiscPositionAllocator::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::UniformRandomVariable::GetTypeId(), ns3::VhtConfiguration::GetTypeId(), ns3::WaveformGenerator::GetTypeId(), ns3::WeibullRandomVariable::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRadioEnergyModel::GetTypeId(), ns3::ZetaRandomVariable::GetTypeId(), ns3::ZipfRandomVariable::GetTypeId(), PairObject::GetTypeId(), and TupleObject::GetTypeId().

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◆ MakeDoubleChecker() [2/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeDoubleChecker ( double min)

Make a checker with a minimum value.

The minimum value is included in the allowed range.

Parameters
[in]minThe minimum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 91 of file double.h.

References ns3::internal::MakeDoubleChecker(), and TypeNameGet().

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◆ MakeDoubleChecker() [3/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeDoubleChecker ( double min,
double max )

Make a checker with a minimum and a maximum value.

The minimum and maximum values are included in the allowed range.

Parameters
[in]minThe minimum value.
[in]maxThe maximum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 98 of file double.h.

References ns3::internal::MakeDoubleChecker(), and TypeNameGet().

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◆ MakeEnumAccessor() [1/2]

template<typename T , typename T1 >
Ptr< const AttributeAccessor > ns3::MakeEnumAccessor ( T1 a1)

Definition at line 221 of file enum.h.

References MakeAccessorHelper().

Referenced by AttributeObjectTest::GetTypeId(), ns3::Building::GetTypeId(), ns3::ConfigStore::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::FcfsWifiQueueScheduler::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::FfMacScheduler::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HybridBuildingsPropagationLossModel::GetTypeId(), ns3::ItuR1411NlosOverRooftopPropagationLossModel::GetTypeId(), ns3::lorawan::AdrComponent::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanNetDevice::GetTypeId(), ns3::LteAmc::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteSimpleHelper::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::OkumuraHataPropagationLossModel::GetTypeId(), ns3::olsr::RoutingProtocol::GetTypeId(), ns3::Ping::GetTypeId(), ns3::ProbabilisticV2vHighwayChannelConditionModel::GetTypeId(), ns3::ProbabilisticV2vUrbanChannelConditionModel::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RateErrorModel::GetTypeId(), ns3::RealtimeSimulatorImpl::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpWestwoodPlus::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::Txop::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), ns3::WimaxConnection::GetTypeId(), and TestMultiUserScheduler::GetTypeId().

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◆ MakeEnumAccessor() [2/2]

template<typename T , typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeEnumAccessor ( T1 a1,
T2 a2 )

Definition at line 228 of file enum.h.

References MakeAccessorHelper().

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◆ MakeEnumChecker() [1/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeEnumChecker ( Ptr< EnumChecker< T > > checker)
inline

Terminate the recursion of variadic arguments.

Returns
The checker
Parameters
[in]checkerThe AttributeChecker.

Definition at line 214 of file enum.h.

◆ MakeEnumChecker() [2/3]

template<typename T , typename... Ts>
Ptr< const AttributeChecker > ns3::MakeEnumChecker ( Ptr< EnumChecker< T > > checker,
T v,
std::string n,
Ts... args )

Handler for enum value, name pairs other than the default.

Template Parameters
TsThe type list of additional parameters. Additional parameters should be T, string pairs.
Returns
The AttributeChecker
Parameters
[in]checkerThe AttributeChecker.
[in]vThe next enum value.
[in]nThe corresponding name.
[in]argsAny additional arguments.

Definition at line 199 of file enum.h.

References MakeEnumChecker().

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◆ MakeEnumChecker() [3/3]

template<typename T , typename... Ts>
Ptr< const AttributeChecker > ns3::MakeEnumChecker ( T v,
std::string n,
Ts... args )

Make an EnumChecker pre-configured with a set of allowed values by name.

Values are normally given as fully qualified enum symbols with matching names. For example, MakeEnumChecker (RipNg::SPLIT_HORIZON, "ns3::RipNg::SplitHorizon");

As many additional enum value, name pairs as desired can be passed as arguments.

See also
AttributeChecker
Template Parameters
TsThe type list of additional parameters. Additional parameters should be T, string pairs.
Returns
The AttributeChecker
Parameters
[in]vThe default enum value.
[in]nThe corresponding name.
[in]argsAny additional arguments.

Definition at line 179 of file enum.h.

References Create(), and MakeEnumChecker().

Referenced by ns3::ApWifiMac::GetTimeAccessParamsChecker(), AttributeObjectTest::GetTypeId(), ns3::Building::GetTypeId(), ns3::ConfigStore::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::FcfsWifiQueueScheduler::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::FfMacScheduler::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HybridBuildingsPropagationLossModel::GetTypeId(), ns3::ItuR1411NlosOverRooftopPropagationLossModel::GetTypeId(), ns3::lorawan::AdrComponent::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanNetDevice::GetTypeId(), ns3::LteAmc::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteSimpleHelper::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::OkumuraHataPropagationLossModel::GetTypeId(), ns3::olsr::RoutingProtocol::GetTypeId(), ns3::Ping::GetTypeId(), ns3::ProbabilisticV2vHighwayChannelConditionModel::GetTypeId(), ns3::ProbabilisticV2vUrbanChannelConditionModel::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RateErrorModel::GetTypeId(), ns3::RealtimeSimulatorImpl::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpWestwoodPlus::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::Txop::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), ns3::WimaxConnection::GetTypeId(), TestMultiUserScheduler::GetTypeId(), TupleObject::GetTypeId(), ns3::ApWifiMac::GetUintAccessParamsChecker(), MakeEnumChecker(), and MakeEnumChecker().

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◆ MakeIntegerAccessor() [1/2]

◆ MakeIntegerAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeIntegerAccessor ( T1 a1,
T2 a2 )

Definition at line 35 of file integer.h.

◆ MakeIntegerChecker() [1/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeIntegerChecker ( )

◆ MakeIntegerChecker() [2/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeIntegerChecker ( int64_t min)

Make a checker with a minimum value.

The minimum value is included in the allowed range.

Parameters
[in]minThe minimum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 92 of file integer.h.

References ns3::internal::MakeIntegerChecker(), and TypeNameGet().

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◆ MakeIntegerChecker() [3/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeIntegerChecker ( int64_t min,
int64_t max )

Make a checker with a minimum and a maximum value.

The minimum and maximum values are included in the allowed range.

Parameters
[in]minThe minimum value.
[in]maxThe maximum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 85 of file integer.h.

References ns3::internal::MakeIntegerChecker(), and TypeNameGet().

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◆ MakeIpv4AddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeIpv4AddressAccessor ( T1 a1)

Definition at line 330 of file ipv4-address.h.

Referenced by EpsBearerTagUdpClient::GetTypeId(), ns3::DhcpServer::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), and Sender::GetTypeId().

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◆ MakeIpv4AddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeIpv4AddressAccessor ( T1 a1,
T2 a2 )

Definition at line 330 of file ipv4-address.h.

◆ MakeIpv4AddressChecker()

Ptr< const AttributeChecker > ns3::MakeIpv4AddressChecker ( )

Definition at line 429 of file ipv4-address.cc.

Referenced by EpsBearerTagUdpClient::GetTypeId(), ns3::DhcpServer::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), and Sender::GetTypeId().

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◆ MakeIpv4MaskAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeIpv4MaskAccessor ( T1 a1)

Definition at line 331 of file ipv4-address.h.

Referenced by ns3::DhcpServer::GetTypeId(), and ns3::TapBridge::GetTypeId().

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◆ MakeIpv4MaskAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeIpv4MaskAccessor ( T1 a1,
T2 a2 )

Definition at line 331 of file ipv4-address.h.

◆ MakeIpv4MaskChecker()

Ptr< const AttributeChecker > ns3::MakeIpv4MaskChecker ( )

Definition at line 430 of file ipv4-address.cc.

Referenced by ns3::DhcpServer::GetTypeId(), and ns3::TapBridge::GetTypeId().

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◆ MakeIpv6AddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeIpv6AddressAccessor ( T1 a1)

Definition at line 604 of file ipv6-address.h.

◆ MakeIpv6AddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeIpv6AddressAccessor ( T1 a1,
T2 a2 )

Definition at line 604 of file ipv6-address.h.

◆ MakeIpv6AddressChecker()

Ptr< const AttributeChecker > ns3::MakeIpv6AddressChecker ( )

Definition at line 1027 of file ipv6-address.cc.

◆ MakeIpv6PrefixAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeIpv6PrefixAccessor ( T1 a1)

Definition at line 605 of file ipv6-address.h.

◆ MakeIpv6PrefixAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeIpv6PrefixAccessor ( T1 a1,
T2 a2 )

Definition at line 605 of file ipv6-address.h.

◆ MakeIpv6PrefixChecker()

Ptr< const AttributeChecker > ns3::MakeIpv6PrefixChecker ( )

Definition at line 1028 of file ipv6-address.cc.

◆ MakeLengthAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeLengthAccessor ( T1 a1)

Definition at line 612 of file length.h.

Referenced by LengthValueTestCase::TestObject::GetTypeId().

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◆ MakeLengthAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeLengthAccessor ( T1 a1,
T2 a2 )

Definition at line 612 of file length.h.

◆ MakeLengthChecker()

Ptr< const AttributeChecker > ns3::MakeLengthChecker ( )

Definition at line 230 of file length.cc.

Referenced by LengthValueTestCase::TestObject::GetTypeId(), LengthValueTestCase::TestAttributeDeserialization(), and LengthValueTestCase::TestAttributeSerialization().

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◆ MakeMac16AddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeMac16AddressAccessor ( T1 a1)

Definition at line 224 of file mac16-address.h.

◆ MakeMac16AddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeMac16AddressAccessor ( T1 a1,
T2 a2 )

Definition at line 224 of file mac16-address.h.

◆ MakeMac16AddressChecker()

Ptr< const AttributeChecker > ns3::MakeMac16AddressChecker ( )

Definition at line 25 of file mac16-address.cc.

◆ MakeMac48AddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeMac48AddressAccessor ( T1 a1)

Definition at line 208 of file mac48-address.h.

Referenced by ns3::AlohaNoackNetDevice::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::Dot11sStack::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), and ns3::TapBridge::GetTypeId().

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◆ MakeMac48AddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeMac48AddressAccessor ( T1 a1,
T2 a2 )

Definition at line 208 of file mac48-address.h.

◆ MakeMac48AddressChecker()

Ptr< const AttributeChecker > ns3::MakeMac48AddressChecker ( )

Definition at line 24 of file mac48-address.cc.

Referenced by ns3::AlohaNoackNetDevice::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::Dot11sStack::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), and ns3::TapBridge::GetTypeId().

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◆ MakeMac64AddressAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeMac64AddressAccessor ( T1 a1)

Definition at line 180 of file mac64-address.h.

◆ MakeMac64AddressAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeMac64AddressAccessor ( T1 a1,
T2 a2 )

Definition at line 180 of file mac64-address.h.

◆ MakeMac64AddressChecker()

Ptr< const AttributeChecker > ns3::MakeMac64AddressChecker ( )

Definition at line 24 of file mac64-address.cc.

◆ MakeObjectFactoryAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeObjectFactoryAccessor ( T1 a1)

Definition at line 181 of file object-factory.h.

Referenced by ns3::VisualSimulatorImpl::GetTypeId().

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◆ MakeObjectFactoryAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeObjectFactoryAccessor ( T1 a1,
T2 a2 )

Definition at line 181 of file object-factory.h.

◆ MakeObjectFactoryChecker()

Ptr< const AttributeChecker > ns3::MakeObjectFactoryChecker ( )

Definition at line 189 of file object-factory.cc.

Referenced by ns3::VisualSimulatorImpl::GetTypeId().

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◆ MakeObjectMapAccessor() [1/3]

template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessor > ns3::MakeObjectMapAccessor ( INDEX(T::* getN )() const,
Ptr< U >(T::* get )(INDEX) const )

Create an AttributeAccessor using a container class indexed get method.

The two versions of this function differ only in argument order.

Template Parameters
T[deduced] The container class type.
U[deduced] The type of object the get method returns.
INDEX[deduced] The type of the index variable.
Parameters
[in]getThe class method to get a specific instance from the container.
[in]getNThe class method to return the number of objects in the container.
Returns
The AttributeAccessor.

Definition at line 124 of file object-map.h.

References MakeObjectPtrContainerAccessor().

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◆ MakeObjectMapAccessor() [2/3]

template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessor > ns3::MakeObjectMapAccessor ( Ptr< U >(T::* get )(INDEX) const,
INDEX(T::* getN )() const )

Create an AttributeAccessor using a container class indexed get method.

The two versions of this function differ only in argument order.

Template Parameters
T[deduced] The container class type.
U[deduced] The type of object the get method returns.
INDEX[deduced] The type of the index variable.
Parameters
[in]getThe class method to get a specific instance from the container.
[in]getNThe class method to return the number of objects in the container.
Returns
The AttributeAccessor.

Definition at line 117 of file object-map.h.

References MakeObjectPtrContainerAccessor().

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◆ MakeObjectMapAccessor() [3/3]

template<typename T , typename U >
Ptr< const AttributeAccessor > ns3::MakeObjectMapAccessor ( U T::* memberVariable)

MakeAccessorHelper implementation for ObjectVector.

Template Parameters
V[explicit] The specific AttributeValue type to use to represent the Attribute.
T[deduced] The class holding the data member.
U[deduced] The type of the data member.
Parameters
[in]memberVariableThe address of the data member.
Returns
The AttributeAccessor.

Definition at line 65 of file object-map.h.

References NS_ASSERT.

Referenced by AttributeObjectTest::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteUeNetDevice::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::TcpL4Protocol::GetTypeId(), ns3::TrafficControlLayer::GetTypeId(), ns3::UdpL4Protocol::GetTypeId(), and ns3::UeManager::GetTypeId().

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◆ MakeObjectMapChecker()

template<typename T >
Ptr< const AttributeChecker > ns3::MakeObjectMapChecker ( )

Definition at line 110 of file object-map.h.

References MakeObjectPtrContainerChecker().

Referenced by AttributeObjectTest::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteUeNetDevice::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::TcpL4Protocol::GetTypeId(), ns3::TrafficControlLayer::GetTypeId(), ns3::UdpL4Protocol::GetTypeId(), and ns3::UeManager::GetTypeId().

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◆ MakeObjectVectorAccessor() [1/3]

template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessor > ns3::MakeObjectVectorAccessor ( INDEX(T::* getN )() const,
Ptr< U >(T::* get )(INDEX) const )

Create an AttributeAccessor using a container class indexed get method.

The two versions of this function differ only in argument order.

Template Parameters
T[deduced] The container class type.
U[deduced] The type of object the get method returns.
INDEX[deduced] The type of the index variable.
Parameters
[in]getThe class method to get a specific instance from the container.
[in]getNThe class method to return the number of objects in the container.
Returns
The AttributeAccessor.

Definition at line 124 of file object-vector.h.

References MakeObjectPtrContainerAccessor().

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◆ MakeObjectVectorAccessor() [2/3]

template<typename T , typename U , typename INDEX >
Ptr< const AttributeAccessor > ns3::MakeObjectVectorAccessor ( Ptr< U >(T::* get )(INDEX) const,
INDEX(T::* getN )() const )

Create an AttributeAccessor using a container class indexed get method.

The two versions of this function differ only in argument order.

Template Parameters
T[deduced] The container class type.
U[deduced] The type of object the get method returns.
INDEX[deduced] The type of the index variable.
Parameters
[in]getThe class method to get a specific instance from the container.
[in]getNThe class method to return the number of objects in the container.
Returns
The AttributeAccessor.

Definition at line 117 of file object-vector.h.

References MakeObjectPtrContainerAccessor().

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◆ MakeObjectVectorAccessor() [3/3]

template<typename T , typename U >
Ptr< const AttributeAccessor > ns3::MakeObjectVectorAccessor ( U T::* memberVariable)

MakeAccessorHelper implementation for ObjectVector.

Template Parameters
V[explicit] The specific AttributeValue type to use to represent the Attribute.
T[deduced] The class holding the data member.
U[deduced] The type of the data member.
Parameters
[in]memberVariableThe address of the data member.
Returns
The AttributeAccessor.

Definition at line 65 of file object-vector.h.

References NS_ASSERT.

Referenced by AttributeObjectTest::GetTypeId(), ns3::ArpL3Protocol::GetTypeId(), ns3::BuildingListPriv::GetTypeId(), ns3::ChannelListPriv::GetTypeId(), ns3::Ipv4L3ClickProtocol::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv6ExtensionDemux::GetTypeId(), ns3::Ipv6ExtensionRoutingDemux::GetTypeId(), ns3::Ipv6L3Protocol::GetTypeId(), ns3::Ipv6OptionDemux::GetTypeId(), ns3::Node::GetTypeId(), ns3::NodeListPriv::GetTypeId(), ns3::QueueDisc::GetTypeId(), ns3::tests::ConfigTestObject::GetTypeId(), ns3::WifiMac::GetTypeId(), and ns3::WifiNetDevice::GetTypeId().

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◆ MakeObjectVectorChecker()

template<typename T >
Ptr< const AttributeChecker > ns3::MakeObjectVectorChecker ( )

◆ MakePriomapAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakePriomapAccessor ( T1 a1)

Definition at line 101 of file prio-queue-disc.h.

Referenced by ns3::PrioQueueDisc::GetTypeId().

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◆ MakePriomapAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakePriomapAccessor ( T1 a1,
T2 a2 )

Definition at line 101 of file prio-queue-disc.h.

◆ MakePriomapChecker()

Ptr< const AttributeChecker > ns3::MakePriomapChecker ( )

Definition at line 26 of file prio-queue-disc.cc.

Referenced by ns3::PrioQueueDisc::GetTypeId().

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◆ MakeQueueSizeAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeQueueSizeAccessor ( T1 a1)

◆ MakeQueueSizeAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeQueueSizeAccessor ( T1 a1,
T2 a2 )

Definition at line 210 of file queue-size.h.

◆ MakeQueueSizeChecker()

◆ MakeRectangleAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeRectangleAccessor ( T1 a1)

Definition at line 114 of file rectangle.h.

Referenced by ns3::RandomDirection2dMobilityModel::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), and ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId().

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◆ MakeRectangleAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeRectangleAccessor ( T1 a1,
T2 a2 )

Definition at line 114 of file rectangle.h.

◆ MakeRectangleChecker()

Ptr< const AttributeChecker > ns3::MakeRectangleChecker ( )

Definition at line 176 of file rectangle.cc.

Referenced by ns3::RandomDirection2dMobilityModel::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), and ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId().

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◆ MakeSsidAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeSsidAccessor ( T1 a1)

Definition at line 85 of file ssid.h.

Referenced by ns3::WifiMac::GetTypeId().

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◆ MakeSsidAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeSsidAccessor ( T1 a1,
T2 a2 )

Definition at line 85 of file ssid.h.

◆ MakeSsidChecker()

Ptr< const AttributeChecker > ns3::MakeSsidChecker ( )

Definition at line 102 of file ssid.cc.

Referenced by ns3::WifiMac::GetTypeId().

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◆ MakeStringAccessor() [1/2]

◆ MakeStringAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeStringAccessor ( T1 a1,
T2 a2 )

Definition at line 46 of file string.h.

◆ MakeStringChecker()

◆ MakeTimeAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeTimeAccessor ( T1 a1)

Definition at line 1396 of file nstime.h.

Referenced by AttributeObjectTest::GetTypeId(), EpsBearerTagUdpClient::GetTypeId(), ns3::A3RsrpHandoverAlgorithm::GetTypeId(), ns3::AdvancedEmlsrManager::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::Application::GetTypeId(), ns3::ApWifiMac::GetTypeId(), ns3::ArpCache::GetTypeId(), ns3::AthstatsWifiTraceSink::GetTypeId(), ns3::BaseStationNetDevice::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::CsmaChannel::GetTypeId(), ns3::DhcpClient::GetTypeId(), ns3::DhcpServer::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerLink::GetTypeId(), ns3::DpdkNetDevice::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::DynamicQueueLimits::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::energy::BasicEnergyHarvester::GetTypeId(), ns3::energy::BasicEnergySource::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::energy::LiIonEnergySource::GetTypeId(), ns3::energy::RvBatteryModel::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::flame::FlameProtocol::GetTypeId(), ns3::flame::FlameRtable::GetTypeId(), ns3::FlowMonitor::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::FrameCaptureModel::GetTypeId(), ns3::GaussMarkovMobilityModel::GetTypeId(), ns3::HeConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv6ExtensionFragment::GetTypeId(), ns3::Ipv6PmtuCache::GetTypeId(), ns3::lorawan::PeriodicSender::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrDistributedAlgorithm::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::MeshWifiInterfaceMac::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::ofi::LearningController::GetTypeId(), ns3::olsr::RoutingProtocol::GetTypeId(), ns3::OnoeWifiManager::GetTypeId(), ns3::OpenFlowSwitchNetDevice::GetTypeId(), ns3::PacketSocketClient::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::Ping::GetTypeId(), ns3::PointToPointChannel::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), ns3::Probe::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::RadioBearerStatsCalculator::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RealtimeSimulatorImpl::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::RttEstimator::GetTypeId(), ns3::SimpleChannel::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::SpectrumAnalyzer::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::SubscriberStationNetDevice::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpHtcp::GetTypeId(), ns3::TcpHybla::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::TraceFadingLossModel::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::Txop::GetTypeId(), ns3::UanMacCw::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), ns3::UplinkSchedulerMBQoS::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::WaveformGenerator::GetTypeId(), ns3::WifiDefaultAssocManager::GetTypeId(), ns3::WifiMacQueue::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), and ns3::WimaxPhy::GetTypeId().

◆ MakeTimeAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeTimeAccessor ( T1 a1,
T2 a2 )

Definition at line 1396 of file nstime.h.

◆ MakeTimeChecker() [1/3]

Ptr< const AttributeChecker > ns3::MakeTimeChecker ( )
inline

Helper to make an unbounded Time checker.

Returns
The AttributeChecker

Definition at line 1416 of file nstime.h.

References MakeTimeChecker(), ns3::Time::Max(), and ns3::Time::Min().

Referenced by ns3::ApWifiMac::GetTimeAccessParamsChecker(), AttributeObjectTest::GetTypeId(), EpsBearerTagUdpClient::GetTypeId(), ns3::A3RsrpHandoverAlgorithm::GetTypeId(), ns3::AdvancedEmlsrManager::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::Application::GetTypeId(), ns3::ApWifiMac::GetTypeId(), ns3::ArpCache::GetTypeId(), ns3::AthstatsWifiTraceSink::GetTypeId(), ns3::BaseStationNetDevice::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::CobaltQueueDisc::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::CsmaChannel::GetTypeId(), ns3::DhcpClient::GetTypeId(), ns3::DhcpServer::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerLink::GetTypeId(), ns3::DpdkNetDevice::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::DynamicQueueLimits::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::energy::BasicEnergyHarvester::GetTypeId(), ns3::energy::BasicEnergySource::GetTypeId(), ns3::energy::GenericBatteryModel::GetTypeId(), ns3::energy::LiIonEnergySource::GetTypeId(), ns3::energy::RvBatteryModel::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::flame::FlameProtocol::GetTypeId(), ns3::flame::FlameRtable::GetTypeId(), ns3::FlowMonitor::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::FrameCaptureModel::GetTypeId(), ns3::GaussMarkovMobilityModel::GetTypeId(), ns3::HeConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv6ExtensionFragment::GetTypeId(), ns3::Ipv6PmtuCache::GetTypeId(), ns3::lorawan::PeriodicSender::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrDistributedAlgorithm::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::MeshWifiInterfaceMac::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::MultiUserScheduler::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::ofi::LearningController::GetTypeId(), ns3::olsr::RoutingProtocol::GetTypeId(), ns3::OnoeWifiManager::GetTypeId(), ns3::OpenFlowSwitchNetDevice::GetTypeId(), ns3::PacketSocketClient::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::Ping::GetTypeId(), ns3::PointToPointChannel::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), ns3::Probe::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::RadioBearerStatsCalculator::GetTypeId(), ns3::RandomWalk2dMobilityModel::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RealtimeSimulatorImpl::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::RttEstimator::GetTypeId(), ns3::SimpleChannel::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::SpectrumAnalyzer::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::SubscriberStationNetDevice::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpHtcp::GetTypeId(), ns3::TcpHybla::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::ThreeGppChannelConditionModel::GetTypeId(), ns3::ThreeGppChannelModel::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::TraceFadingLossModel::GetTypeId(), ns3::TvSpectrumTransmitter::GetTypeId(), ns3::Txop::GetTypeId(), ns3::UanMacCw::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), ns3::UplinkSchedulerMBQoS::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::WaveformGenerator::GetTypeId(), ns3::WifiDefaultAssocManager::GetTypeId(), ns3::WifiMacQueue::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), ns3::WimaxPhy::GetTypeId(), MakeTimeChecker(), and MakeTimeChecker().

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◆ MakeTimeChecker() [2/3]

Ptr< const AttributeChecker > ns3::MakeTimeChecker ( const Time min)
inline

Helper to make a Time checker with a lower bound.

Parameters
[in]minMinimum allowed value.
Returns
The AttributeChecker

Definition at line 1429 of file nstime.h.

References MakeTimeChecker(), and ns3::Time::Max().

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◆ MakeTimeChecker() [3/3]

Ptr< const AttributeChecker > ns3::MakeTimeChecker ( const Time min,
const Time max )

Helper to make a Time checker with bounded range.

Both limits are inclusive

Parameters
[in]minMinimum allowed value.
[in]maxMaximum allowed value.
Returns
The AttributeChecker

Definition at line 522 of file time.cc.

References Copy(), Create(), ns3::TimeValue::Get(), NS_LOG_FUNCTION, and NS_LOG_FUNCTION_NOARGS.

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◆ MakeTypeIdAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeTypeIdAccessor ( T1 a1)

Definition at line 617 of file type-id.h.

Referenced by ns3::BulkSendApplication::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::NetDeviceQueueInterface::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), and ns3::TcpL4Protocol::GetTypeId().

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◆ MakeTypeIdAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeTypeIdAccessor ( T1 a1,
T2 a2 )

Definition at line 617 of file type-id.h.

◆ MakeTypeIdChecker()

Ptr< const AttributeChecker > ns3::MakeTypeIdChecker ( )

Definition at line 1320 of file type-id.cc.

Referenced by ns3::BulkSendApplication::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::NetDeviceQueueInterface::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::PacketSink::GetTypeId(), and ns3::TcpL4Protocol::GetTypeId().

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◆ MakeUanModesListAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeUanModesListAccessor ( T1 a1)

Definition at line 303 of file uan-tx-mode.h.

Referenced by ns3::UanPhyDual::GetTypeId(), and ns3::UanPhyGen::GetTypeId().

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◆ MakeUanModesListAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeUanModesListAccessor ( T1 a1,
T2 a2 )

Definition at line 303 of file uan-tx-mode.h.

◆ MakeUanModesListChecker()

Ptr< const AttributeChecker > ns3::MakeUanModesListChecker ( )

Definition at line 301 of file uan-tx-mode.cc.

Referenced by ns3::UanPhyDual::GetTypeId(), and ns3::UanPhyGen::GetTypeId().

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◆ MakeUintegerAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeUintegerAccessor ( T1 a1)

Definition at line 35 of file uinteger.h.

Referenced by AttributeObjectTest::GetTypeId(), EpsBearerTagUdpClient::GetTypeId(), MyTag::GetTypeId(), ns3::A2A4RsrqHandoverAlgorithm::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AarfWifiManager::GetTypeId(), ns3::AlohaNoackNetDevice::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::AparfWifiManager::GetTypeId(), ns3::ArfWifiManager::GetTypeId(), ns3::ArpCache::GetTypeId(), ns3::BaseStationNetDevice::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::Building::GetTypeId(), ns3::BulkSendApplication::GetTypeId(), ns3::CaraWifiManager::GetTypeId(), ns3::CcHelper::GetTypeId(), ns3::Channel::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::ComponentCarrier::GetTypeId(), ns3::CqaFfMacScheduler::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::dot11s::AirtimeLinkMetricCalculator::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerLink::GetTypeId(), ns3::dot11s::PeerManagementProtocol::GetTypeId(), ns3::DpdkNetDevice::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrOptions::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::DynamicQueueLimits::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::EpsBearer::GetTypeId(), ns3::EpsBearerTag::GetTypeId(), ns3::FdBetFfMacScheduler::GetTypeId(), ns3::FdMtFfMacScheduler::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::FdTbfqFfMacScheduler::GetTypeId(), ns3::flame::FlameProtocol::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HeConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4L3ClickProtocol::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv4RawSocketImpl::GetTypeId(), ns3::Ipv6Extension::GetTypeId(), ns3::Ipv6L3Protocol::GetTypeId(), ns3::Ipv6Option::GetTypeId(), ns3::Ipv6RawSocketImpl::GetTypeId(), ns3::JakesProcess::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanMac::GetTypeId(), ns3::LteAnr::GetTypeId(), ns3::LteDataRadioBearerInfo::GetTypeId(), ns3::LteEnbMac::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbPhy::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrAlgorithm::GetTypeId(), ns3::LteFfrDistributedAlgorithm::GetTypeId(), ns3::LteFfrEnhancedAlgorithm::GetTypeId(), ns3::LteFfrSimple::GetTypeId(), ns3::LteFfrSoftAlgorithm::GetTypeId(), ns3::LteFrHardAlgorithm::GetTypeId(), ns3::LteFrSoftAlgorithm::GetTypeId(), ns3::LteFrStrictAlgorithm::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::LteHexGridEnbTopologyHelper::GetTypeId(), ns3::LteNetDevice::GetTypeId(), ns3::LteRadioBearerTag::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcTm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteSignalingRadioBearerInfo::GetTypeId(), ns3::LteUeNetDevice::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::MeshPointDevice::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::NdiscCache::GetTypeId(), ns3::NetDeviceQueueInterface::GetTypeId(), ns3::NetmapNetDevice::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::Node::GetTypeId(), ns3::OnoeWifiManager::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::OpenFlowSwitchNetDevice::GetTypeId(), ns3::OutdoorPositionAllocator::GetTypeId(), ns3::PacketSocket::GetTypeId(), ns3::PacketSocketClient::GetTypeId(), ns3::ParfWifiManager::GetTypeId(), ns3::PcapFileWrapper::GetTypeId(), ns3::PfFfMacScheduler::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::Ping::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), ns3::PssFfMacScheduler::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::QueueDisc::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrFfMacScheduler::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::SimpleOfdmWimaxPhy::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::SubscriberStationNetDevice::GetTypeId(), ns3::TableBasedErrorRateModel::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TbfQueueDisc::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpIllinois::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpScalable::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpSocketState::GetTypeId(), ns3::TcpVegas::GetTypeId(), ns3::TcpVeno::GetTypeId(), ns3::TcpYeah::GetTypeId(), ns3::TdBetFfMacScheduler::GetTypeId(), ns3::TdMtFfMacScheduler::GetTypeId(), ns3::TdTbfqFfMacScheduler::GetTypeId(), ns3::ThreeGppHttpClient::GetTypeId(), ns3::ThreeGppHttpServer::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::TraceFadingLossModel::GetTypeId(), ns3::TtaFfMacScheduler::GetTypeId(), ns3::Txop::GetTypeId(), ns3::UanMacCw::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UanPhyCalcSinrFhFsk::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), ns3::UdpEchoServer::GetTypeId(), ns3::UdpServer::GetTypeId(), ns3::UdpSocket::GetTypeId(), ns3::UdpTraceClient::GetTypeId(), ns3::UeManager::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::VirtualNetDevice::GetTypeId(), ns3::WaypointMobilityModel::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiMac::GetTypeId(), ns3::WifiNetDevice::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), ns3::WimaxMacQueue::GetTypeId(), ns3::WimaxNetDevice::GetTypeId(), ns3::WimaxPhy::GetTypeId(), Receiver::GetTypeId(), and Sender::GetTypeId().

◆ MakeUintegerAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeUintegerAccessor ( T1 a1,
T2 a2 )

Definition at line 35 of file uinteger.h.

◆ MakeUintegerChecker() [1/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeUintegerChecker ( )

Definition at line 85 of file uinteger.h.

References ns3::internal::MakeUintegerChecker(), and TypeNameGet().

Referenced by AttributeContainerSerializationTestCase::DoRun(), ns3::tests::GlobalValueTestCase::DoRun(), AttributeObjectTest::GetTypeId(), EpsBearerTagUdpClient::GetTypeId(), MyTag::GetTypeId(), ns3::A2A4RsrqHandoverAlgorithm::GetTypeId(), ns3::AarfcdWifiManager::GetTypeId(), ns3::AarfWifiManager::GetTypeId(), ns3::AlohaNoackNetDevice::GetTypeId(), ns3::AmrrWifiManager::GetTypeId(), ns3::aodv::RoutingProtocol::GetTypeId(), ns3::AparfWifiManager::GetTypeId(), ns3::ArfWifiManager::GetTypeId(), ns3::ArpCache::GetTypeId(), ns3::BaseStationNetDevice::GetTypeId(), ns3::BridgeNetDevice::GetTypeId(), ns3::Building::GetTypeId(), ns3::BulkSendApplication::GetTypeId(), ns3::CaraWifiManager::GetTypeId(), ns3::CcHelper::GetTypeId(), ns3::Channel::GetTypeId(), ns3::CoDelQueueDisc::GetTypeId(), ns3::ComponentCarrier::GetTypeId(), ns3::CqaFfMacScheduler::GetTypeId(), ns3::CsmaNetDevice::GetTypeId(), ns3::dot11s::AirtimeLinkMetricCalculator::GetTypeId(), ns3::dot11s::HwmpProtocol::GetTypeId(), ns3::dot11s::PeerLink::GetTypeId(), ns3::dot11s::PeerManagementProtocol::GetTypeId(), ns3::DpdkNetDevice::GetTypeId(), ns3::dsdv::RoutingProtocol::GetTypeId(), ns3::dsr::DsrOptions::GetTypeId(), ns3::dsr::DsrRouting::GetTypeId(), ns3::DynamicQueueLimits::GetTypeId(), ns3::EhtConfiguration::GetTypeId(), ns3::EmlsrManager::GetTypeId(), ns3::EpsBearer::GetTypeId(), ns3::EpsBearerTag::GetTypeId(), ns3::FdBetFfMacScheduler::GetTypeId(), ns3::FdMtFfMacScheduler::GetTypeId(), ns3::FdNetDevice::GetTypeId(), ns3::FdTbfqFfMacScheduler::GetTypeId(), ns3::flame::FlameProtocol::GetTypeId(), ns3::FqCobaltQueueDisc::GetTypeId(), ns3::FqCoDelQueueDisc::GetTypeId(), ns3::FqPieQueueDisc::GetTypeId(), ns3::GridBuildingAllocator::GetTypeId(), ns3::GridPositionAllocator::GetTypeId(), ns3::HeConfiguration::GetTypeId(), ns3::Icmpv6L4Protocol::GetTypeId(), ns3::Ipv4L3ClickProtocol::GetTypeId(), ns3::Ipv4L3Protocol::GetTypeId(), ns3::Ipv4RawSocketImpl::GetTypeId(), ns3::Ipv6Extension::GetTypeId(), ns3::Ipv6L3Protocol::GetTypeId(), ns3::Ipv6Option::GetTypeId(), ns3::Ipv6RawSocketImpl::GetTypeId(), ns3::JakesProcess::GetTypeId(), ns3::lorawan::EndDeviceLorawanMac::GetTypeId(), ns3::lrwpan::LrWpanMac::GetTypeId(), ns3::LteAnr::GetTypeId(), ns3::LteDataRadioBearerInfo::GetTypeId(), ns3::LteEnbMac::GetTypeId(), ns3::LteEnbNetDevice::GetTypeId(), ns3::LteEnbPhy::GetTypeId(), ns3::LteEnbRrc::GetTypeId(), ns3::LteFfrAlgorithm::GetTypeId(), ns3::LteFfrDistributedAlgorithm::GetTypeId(), ns3::LteFfrEnhancedAlgorithm::GetTypeId(), ns3::LteFfrSimple::GetTypeId(), ns3::LteFfrSoftAlgorithm::GetTypeId(), ns3::LteFrHardAlgorithm::GetTypeId(), ns3::LteFrSoftAlgorithm::GetTypeId(), ns3::LteFrStrictAlgorithm::GetTypeId(), ns3::LteHelper::GetTypeId(), ns3::LteHexGridEnbTopologyHelper::GetTypeId(), ns3::LteNetDevice::GetTypeId(), ns3::LteRadioBearerTag::GetTypeId(), ns3::LteRlcAm::GetTypeId(), ns3::LteRlcTm::GetTypeId(), ns3::LteRlcUm::GetTypeId(), ns3::LteSignalingRadioBearerInfo::GetTypeId(), ns3::LteUeNetDevice::GetTypeId(), ns3::LteUePhy::GetTypeId(), ns3::LteUeRrc::GetTypeId(), ns3::MeshPointDevice::GetTypeId(), ns3::MinstrelHtWifiManager::GetTypeId(), ns3::MinstrelWifiManager::GetTypeId(), ns3::NdiscCache::GetTypeId(), ns3::NetDeviceQueueInterface::GetTypeId(), ns3::NetmapNetDevice::GetTypeId(), ns3::NoBackhaulEpcHelper::GetTypeId(), ns3::Node::GetTypeId(), ns3::OnoeWifiManager::GetTypeId(), ns3::OnOffApplication::GetTypeId(), ns3::OpenFlowSwitchNetDevice::GetTypeId(), ns3::OutdoorPositionAllocator::GetTypeId(), ns3::PacketSocket::GetTypeId(), ns3::PacketSocketClient::GetTypeId(), ns3::ParfWifiManager::GetTypeId(), ns3::PcapFileWrapper::GetTypeId(), ns3::PfFfMacScheduler::GetTypeId(), ns3::PieQueueDisc::GetTypeId(), ns3::Ping::GetTypeId(), ns3::PointToPointEpcHelper::GetTypeId(), ns3::PointToPointNetDevice::GetTypeId(), ns3::PssFfMacScheduler::GetTypeId(), ns3::QosTxop::GetTypeId(), ns3::QueueDisc::GetTypeId(), ns3::RadioEnvironmentMapHelper::GetTypeId(), ns3::RandomWalk2dOutdoorMobilityModel::GetTypeId(), ns3::RedQueueDisc::GetTypeId(), ns3::Rip::GetTypeId(), ns3::RipNg::GetTypeId(), ns3::RraaWifiManager::GetTypeId(), ns3::RrFfMacScheduler::GetTypeId(), ns3::RrMultiUserScheduler::GetTypeId(), ns3::RrpaaWifiManager::GetTypeId(), ns3::SimpleOfdmWimaxPhy::GetTypeId(), ns3::SixLowPanNetDevice::GetTypeId(), ns3::StaWifiMac::GetTypeId(), ns3::SubscriberStationNetDevice::GetTypeId(), ns3::TableBasedErrorRateModel::GetTypeId(), ns3::TapBridge::GetTypeId(), ns3::TbfQueueDisc::GetTypeId(), ns3::TcpBbr::GetTypeId(), ns3::TcpBic::GetTypeId(), ns3::TcpCubic::GetTypeId(), ns3::TcpIllinois::GetTypeId(), ns3::TcpLedbat::GetTypeId(), ns3::TcpScalable::GetTypeId(), ns3::TcpSocket::GetTypeId(), ns3::TcpSocketBase::GetTypeId(), ns3::TcpSocketState::GetTypeId(), ns3::TcpVegas::GetTypeId(), ns3::TcpVeno::GetTypeId(), ns3::TcpYeah::GetTypeId(), ns3::TdBetFfMacScheduler::GetTypeId(), ns3::TdMtFfMacScheduler::GetTypeId(), ns3::TdTbfqFfMacScheduler::GetTypeId(), ns3::ThreeGppHttpClient::GetTypeId(), ns3::ThreeGppHttpServer::GetTypeId(), ns3::ThreeGppHttpVariables::GetTypeId(), ns3::TraceFadingLossModel::GetTypeId(), ns3::TtaFfMacScheduler::GetTypeId(), ns3::Txop::GetTypeId(), ns3::UanMacCw::GetTypeId(), ns3::UanMacRc::GetTypeId(), ns3::UanMacRcGw::GetTypeId(), ns3::UanPhyCalcSinrFhFsk::GetTypeId(), ns3::UdpClient::GetTypeId(), ns3::UdpEchoClient::GetTypeId(), ns3::UdpEchoServer::GetTypeId(), ns3::UdpServer::GetTypeId(), ns3::UdpSocket::GetTypeId(), ns3::UdpTraceClient::GetTypeId(), ns3::UeManager::GetTypeId(), ns3::UniformPlanarArray::GetTypeId(), ns3::V4TraceRoute::GetTypeId(), ns3::VirtualNetDevice::GetTypeId(), ns3::WaypointMobilityModel::GetTypeId(), ns3::WifiAssocManager::GetTypeId(), ns3::WifiDefaultAckManager::GetTypeId(), ns3::WifiMac::GetTypeId(), ns3::WifiNetDevice::GetTypeId(), ns3::WifiPhy::GetTypeId(), ns3::WifiRemoteStationManager::GetTypeId(), ns3::WimaxMacQueue::GetTypeId(), ns3::WimaxNetDevice::GetTypeId(), ns3::WimaxPhy::GetTypeId(), Receiver::GetTypeId(), Sender::GetTypeId(), TupleObject::GetTypeId(), and ns3::ApWifiMac::GetUintAccessParamsChecker().

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◆ MakeUintegerChecker() [2/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeUintegerChecker ( uint64_t min)

Make a checker with a minimum value.

The minimum value is included in the allowed range.

Parameters
[in]minThe minimum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 94 of file uinteger.h.

References ns3::internal::MakeUintegerChecker(), and TypeNameGet().

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◆ MakeUintegerChecker() [3/3]

template<typename T >
Ptr< const AttributeChecker > ns3::MakeUintegerChecker ( uint64_t min,
uint64_t max )

Make a checker with a minimum and a maximum value.

The minimum and maximum values are included in the allowed range.

Parameters
[in]minThe minimum value.
[in]maxThe maximum value.
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 101 of file uinteger.h.

References ns3::internal::MakeUintegerChecker(), and TypeNameGet().

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◆ MakeValueClassTestAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeValueClassTestAccessor ( T1 a1)

Definition at line 103 of file attribute-test-suite.cc.

Referenced by AttributeObjectTest::GetTypeId().

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◆ MakeValueClassTestAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeValueClassTestAccessor ( T1 a1,
T2 a2 )

Definition at line 103 of file attribute-test-suite.cc.

◆ MakeValueClassTestChecker()

Ptr< const AttributeChecker > ns3::MakeValueClassTestChecker ( )

Definition at line 104 of file attribute-test-suite.cc.

Referenced by AttributeObjectTest::GetTypeId().

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◆ MakeVector2DAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeVector2DAccessor ( T1 a1)

Definition at line 355 of file vector.h.

◆ MakeVector2DAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeVector2DAccessor ( T1 a1,
T2 a2 )

Definition at line 355 of file vector.h.

◆ MakeVector2DChecker()

Ptr< const AttributeChecker > ns3::MakeVector2DChecker ( )

Definition at line 29 of file vector.cc.

◆ MakeVector3DAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeVector3DAccessor ( T1 a1)

Definition at line 354 of file vector.h.

Referenced by ns3::GeocentricConstantPositionMobilityModel::GetTypeId().

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◆ MakeVector3DAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeVector3DAccessor ( T1 a1,
T2 a2 )

Definition at line 354 of file vector.h.

◆ MakeVector3DChecker()

Ptr< const AttributeChecker > ns3::MakeVector3DChecker ( )

Definition at line 28 of file vector.cc.

Referenced by ns3::GeocentricConstantPositionMobilityModel::GetTypeId(), and MakeVectorChecker().

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◆ MakeVectorAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeVectorAccessor ( T1 a1)

Create an AttributeAccessor for a class data member, or a lone class get functor or set method.

The get functor method should have a signature like

typedef U (T::*getter)() const

where T is the class and U is the type of the return value.

The set method should have one of these signatures:

typedef void (T::*setter)(U)
typedef bool (T::*setter)(U)

where T is the class and U is the type of the value to set the attribute to, which should be compatible with the specific AttributeValue type V which holds the value (or the type implied by the name Make<V>Accessor of this function.) In the case of a setter returning bool, the return value should be true if the value could be set successfully.

Template Parameters
V[explicit] (If present) The specific AttributeValue type to use to represent the Attribute. (If not present, the type V is implicit in the name of this function, as "Make<V>Accessor"
T1[deduced] The type of the class data member, or the type of the class get functor or set method.
Parameters
[in]a1The address of the data member, or the get or set method.
Returns
The AttributeAccessor
See also
AttributeAccessor

Definition at line 378 of file vector.h.

Referenced by ns3::MobilityModel::GetTypeId().

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◆ MakeVectorAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeVectorAccessor ( T1 a1,
T2 a2 )

Create an AttributeAccessor using a pair of get functor and set methods from a class.

The get functor method should have a signature like

typedef U (T::*getter)() const

where T is the class and U is the type of the return value.

The set method should have one of these signatures:

typedef void (T::*setter)(U)
typedef bool (T::*setter)(U)

where T is the class and U is the type of the value to set the attribute to, which should be compatible with the specific AttributeValue type V which holds the value (or the type implied by the name Make<V>Accessor of this function.) In the case of a setter returning bool, the return value should be true if the value could be set successfully.

In practice the setter and getter arguments can appear in either order, but setter first is preferred.

Template Parameters
V[explicit] (If present) The specific AttributeValue type to use to represent the Attribute. (If not present, the type V is implicit in the name of this function as "Make<V>Accessor"
T1[deduced] The type of the class data member, or the type of the class get functor or set method.
T2[deduced] The type of the getter class functor method.
Parameters
[in]a2The address of the class method to set the attribute.
[in]a1The address of the data member, or the get or set method.
Returns
The AttributeAccessor
See also
AttributeAccessor

Definition at line 378 of file vector.h.

◆ MakeVectorChecker()

Ptr< const AttributeChecker > ns3::MakeVectorChecker ( )
Returns
The AttributeChecker.
See also
AttributeChecker

Definition at line 33 of file vector.cc.

References MakeVector3DChecker(), and NS_LOG_FUNCTION_NOARGS.

Referenced by ns3::MobilityModel::GetTypeId().

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◆ MakeWaypointAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeWaypointAccessor ( T1 a1)

Definition at line 49 of file waypoint.h.

Referenced by ns3::WaypointMobilityModel::GetTypeId().

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◆ MakeWaypointAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeWaypointAccessor ( T1 a1,
T2 a2 )

Definition at line 49 of file waypoint.h.

◆ MakeWaypointChecker()

Ptr< const AttributeChecker > ns3::MakeWaypointChecker ( )

Definition at line 13 of file waypoint.cc.

Referenced by ns3::WaypointMobilityModel::GetTypeId().

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◆ MakeWifiModeAccessor() [1/2]

template<typename T1 >
Ptr< const AttributeAccessor > ns3::MakeWifiModeAccessor ( T1 a1)

Definition at line 243 of file wifi-mode.h.

Referenced by ns3::ConstantRateWifiManager::GetTypeId(), and ns3::WifiRemoteStationManager::GetTypeId().

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◆ MakeWifiModeAccessor() [2/2]

template<typename T1 , typename T2 >
Ptr< const AttributeAccessor > ns3::MakeWifiModeAccessor ( T1 a1,
T2 a2 )

Definition at line 243 of file wifi-mode.h.

◆ MakeWifiModeChecker()

Ptr< const AttributeChecker > ns3::MakeWifiModeChecker ( )

Definition at line 252 of file wifi-mode.cc.

Referenced by ns3::ConstantRateWifiManager::GetTypeId(), and ns3::WifiRemoteStationManager::GetTypeId().

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◆ Max()

Time ns3::Max ( const Time & timeA,
const Time & timeB )
inline

Maximum of two Times.

Parameters
[in]timeAThe first value
[in]timeBThe second value
Returns
The larger of the two operands.

Definition at line 1192 of file nstime.h.

◆ Min()

Time ns3::Min ( const Time & timeA,
const Time & timeB )
inline

Minimum of two Times.

Parameters
[in]timeAThe first value
[in]timeBThe second value
Returns
The smaller of the two operands.

Definition at line 1204 of file nstime.h.

◆ mixHashKey()

void ns3::mixHashKey ( uint32_t & a,
uint32_t & b,
uint32_t & c )

Mix hash keys in-place for lookuphash.

Parameters
afirst word of the hash key
bsecond word of the hash key
cthird word of the hash key

Definition at line 44 of file ipv6-address.cc.

Referenced by lookuphash().

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◆ Norm()

double ns3::Norm ( const SpectrumValue & x)
Parameters
xthe operand
Returns
the euclidean norm, i.e., the sum of the squares of all the values in x

Definition at line 311 of file spectrum-value.cc.

Referenced by SpectrumValueTestCase::MoreOrLessEqual().

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◆ NUM_DOWNLINK_CONFS() [1/5]

const uint16_t ns3::NUM_DOWNLINK_CONFS ( sizeof(g_ffrEnhancedDownlinkDefaultConfiguration)/sizeof(FfrEnhancedDownlinkDefaultConfiguration) )
Returns
number of downlink configurations

Referenced by ns3::LteFfrEnhancedAlgorithm::SetDownlinkConfiguration(), ns3::LteFfrSoftAlgorithm::SetDownlinkConfiguration(), ns3::LteFrHardAlgorithm::SetDownlinkConfiguration(), ns3::LteFrSoftAlgorithm::SetDownlinkConfiguration(), and ns3::LteFrStrictAlgorithm::SetDownlinkConfiguration().

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◆ NUM_DOWNLINK_CONFS() [2/5]

const uint16_t ns3::NUM_DOWNLINK_CONFS ( sizeof(g_ffrSoftDownlinkDefaultConfiguration)/sizeof(FfrSoftDownlinkDefaultConfiguration) )
Returns
number of downlink configurations

◆ NUM_DOWNLINK_CONFS() [3/5]

const uint16_t ns3::NUM_DOWNLINK_CONFS ( sizeof(g_frHardDownlinkDefaultConfiguration)/sizeof(FrHardDownlinkDefaultConfiguration) )
Returns
number of downlink configurations

◆ NUM_DOWNLINK_CONFS() [4/5]

const uint16_t ns3::NUM_DOWNLINK_CONFS ( sizeof(g_frSoftDownlinkDefaultConfiguration)/sizeof(FrSoftDownlinkDefaultConfiguration) )
Returns
number of downlink configurations

◆ NUM_DOWNLINK_CONFS() [5/5]

const uint16_t ns3::NUM_DOWNLINK_CONFS ( sizeof(g_frStrictDownlinkDefaultConfiguration)/sizeof(FrStrictDownlinkDefaultConfiguration) )
Returns
number of downlink configurations

◆ NUM_UPLINK_CONFS() [1/5]

const uint16_t ns3::NUM_UPLINK_CONFS ( sizeof(g_ffrEnhancedUplinkDefaultConfiguration)/sizeof(FfrEnhancedUplinkDefaultConfiguration) )
Returns
number of uplink configurations

Referenced by ns3::LteFfrEnhancedAlgorithm::SetUplinkConfiguration(), ns3::LteFfrSoftAlgorithm::SetUplinkConfiguration(), ns3::LteFrHardAlgorithm::SetUplinkConfiguration(), ns3::LteFrSoftAlgorithm::SetUplinkConfiguration(), and ns3::LteFrStrictAlgorithm::SetUplinkConfiguration().

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◆ NUM_UPLINK_CONFS() [2/5]

const uint16_t ns3::NUM_UPLINK_CONFS ( sizeof(g_ffrSoftUplinkDefaultConfiguration)/sizeof(FfrSoftUplinkDefaultConfiguration) )
Returns
number of uplink configurations

◆ NUM_UPLINK_CONFS() [3/5]

const uint16_t ns3::NUM_UPLINK_CONFS ( sizeof(g_frHardUplinkDefaultConfiguration)/sizeof(FrHardUplinkDefaultConfiguration) )
Returns
number of uplink configurations

◆ NUM_UPLINK_CONFS() [4/5]

const uint16_t ns3::NUM_UPLINK_CONFS ( sizeof(g_frSoftUplinkDefaultConfiguration)/sizeof(FrSoftUplinkDefaultConfiguration) )
Returns
number of uplink configurations

◆ NUM_UPLINK_CONFS() [5/5]

const uint16_t ns3::NUM_UPLINK_CONFS ( sizeof(g_frStrictUplinkDefaultConfiguration)/sizeof(FrStrictUplinkDefaultConfiguration) )
Returns
number of uplink configurations

◆ operator!=() [1/25]

template<typename R , typename... Args>
bool ns3::operator!= ( Callback< R, Args... > a,
Callback< R, Args... > b )

Inequality test.

Template Parameters
R[explicit] The return type of the Callbacks
UArgs[explicit] The types of any arguments to the Callbacks
Parameters
[in]aCallback
[in]bCallback
Returns
true if the Callbacks are not equal

Definition at line 658 of file callback.h.

References ns3::Callback< R, UArgs >::IsEqual().

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◆ operator!=() [2/25]

bool ns3::operator!= ( const Address & a,
const Address & b )
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 195 of file address.cc.

◆ operator!=() [3/25]

bool ns3::operator!= ( const Cid & lhs,
const Cid & rhs )

inequality operator

Parameters
lhsleft hand side
rhsright hand side
Returns
true if not equal

Definition at line 100 of file cid.cc.

◆ operator!=() [4/25]

bool ns3::operator!= ( const EventId & a,
const EventId & b )
inline
Parameters
[in]aThe first EventId.
[in]bThe second EventId.
Returns
true if the a and b are not the same event.

Definition at line 162 of file event-id.h.

◆ operator!=() [5/25]

bool ns3::operator!= ( const FrequencyRange & lhs,
const FrequencyRange & rhs )

Compare two FrequencyRange values.

Parameters
lhsthe FrequencyRange value on the left of operator
rhsthe FrequencyRange value on the right of operator
Returns
true if either minFrequency or maxFrequency of left different from minFrequency or maxFrequency of right respectively, false otherwise

Definition at line 1138 of file wifi-spectrum-value-helper.cc.

◆ operator!=() [6/25]

bool ns3::operator!= ( const Ipv4Address & a,
const Ipv4Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are not equal.

Definition at line 373 of file ipv4-address.h.

◆ operator!=() [7/25]

bool ns3::operator!= ( const Ipv4InterfaceAddress & a,
const Ipv4InterfaceAddress & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 202 of file ipv4-interface-address.h.

◆ operator!=() [8/25]

bool ns3::operator!= ( const Ipv4Mask & a,
const Ipv4Mask & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are not equal.

Definition at line 410 of file ipv4-address.h.

◆ operator!=() [9/25]

bool ns3::operator!= ( const Ipv6Address & a,
const Ipv6Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are not equal.

Definition at line 650 of file ipv6-address.h.

◆ operator!=() [10/25]

bool ns3::operator!= ( const Ipv6InterfaceAddress & a,
const Ipv6InterfaceAddress & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 246 of file ipv6-interface-address.h.

◆ operator!=() [11/25]

bool ns3::operator!= ( const Ipv6Prefix & a,
const Ipv6Prefix & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 668 of file ipv6-address.h.

◆ operator!=() [12/25]

bool ns3::operator!= ( const Mac16Address & a,
const Mac16Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 233 of file mac16-address.h.

◆ operator!=() [13/25]

bool ns3::operator!= ( const Mac48Address & a,
const Mac48Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 217 of file mac48-address.h.

◆ operator!=() [14/25]

bool ns3::operator!= ( const Mac64Address & a,
const Mac64Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are not equal

Definition at line 189 of file mac64-address.h.

◆ operator!=() [15/25]

bool ns3::operator!= ( const Mac8Address & a,
const Mac8Address & b )

Address comparison, unequal.

Parameters
aFirst address to compare.
bSecond address to compare.
Returns
True if a != b.

Definition at line 122 of file mac8-address.cc.

◆ operator!=() [16/25]

bool ns3::operator!= ( const Scheduler::Event & a,
const Scheduler::Event & b )
inline

Compare (not equal) two events by Event.

Parameters
[in]aThe first event.
[in]bThe second event.
Returns
true if a != b

Definition at line 301 of file scheduler.h.

References ns3::Scheduler::Event::key.

◆ operator!=() [17/25]

bool ns3::operator!= ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
true if lhs and rhs SpectruValues are not equal

Definition at line 418 of file spectrum-value.cc.

◆ operator!=() [18/25]

bool ns3::operator!= ( const Time & lhs,
const Time & rhs )
inline

Inequality operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the two input values not are equal.

Definition at line 851 of file nstime.h.

◆ operator!=() [19/25]

bool ns3::operator!= ( const ValueClassTest & a,
const ValueClassTest & b )

Operator not equal.

Parameters
aThe left operand.
bThe right operand.
Returns
always true.

Definition at line 72 of file attribute-test-suite.cc.

◆ operator!=() [20/25]

bool ns3::operator!= ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
true if a is not equal to b .

Definition at line 261 of file vector.cc.

◆ operator!=() [21/25]

bool ns3::operator!= ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
true if a is not equal to b .

Definition at line 176 of file vector.cc.

◆ operator!=() [22/25]

bool ns3::operator!= ( const WifiMode & a,
const WifiMode & b )

Check if the two WifiModes are different.

Parameters
aWifiMode
bWifiMode
Returns
true if the two WifiModes are different, false otherwise

Definition at line 29 of file wifi-mode.cc.

References ns3::WifiMode::GetUid().

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◆ operator!=() [23/25]

bool ns3::operator!= ( const WifiPhyTraceStatistics & lhs,
const WifiPhyTraceStatistics & rhs )

Checks if two WifiPhyTraceStatistics objects are not equal.

Determines if two WifiPhyTraceStatistics objects are not equal by comparing their counts. Non-equality is based on any of the relevant statistical counts having different values.

Parameters
lhsThe left-hand side WifiPhyTraceStatistics object in the comparison.
rhsThe right-hand side WifiPhyTraceStatistics object in the comparison.
Returns
true if any property is different, false otherwise.

Definition at line 391 of file wifi-phy-rx-trace-helper.cc.

◆ operator!=() [24/25]

bool ns3::operator!= ( const WifiPpduRxRecord & lhs,
const WifiPpduRxRecord & rhs )

Checks if two WifiPpduRxRecord objects are not equal.

Compares two WifiPpduRxRecord objects to determine if they are not equal. Two objects are considered not equal if at least one of their corresponding counts have different values.

Parameters
lhsThe left-hand side WifiPpduRxRecord object in the comparison.
rhsThe right-hand side WifiPpduRxRecord object in the comparison.
Returns
true if the objects are not equal, false otherwise.

Definition at line 346 of file wifi-phy-rx-trace-helper.cc.

◆ operator!=() [25/25]

bool ns3::operator!= ( TypeId a,
TypeId b )
inline

Comparison operator.

Parameters
[in]aOne value.
[in]bThe other value.
Returns
The result of the comparison.

Definition at line 652 of file type-id.h.

◆ operator%()

Time ns3::operator% ( const Time & lhs,
const Time & rhs )
inline

Remainder (modulus) from the quotient of two Times.

Rem() and operator% are equivalent:

Rem (ta, tb)  ==  ta % tb;
See also
Div()
Parameters
[in]lhsThe first time value
[in]rhsThe second time value
Returns
The remainder of lhs / rhs.

Definition at line 1109 of file nstime.h.

◆ operator*() [1/16]

double ns3::operator* ( const DataRate & lhs,
const Time & rhs )

Multiply datarate by a time value.

Calculates the number of bits that have been transmitted over a period of time

Parameters
lhsrate
rhstime
Returns
the number of bits over the period of time

Definition at line 275 of file data-rate.cc.

References ns3::DataRate::GetBitRate(), and ns3::Time::GetSeconds().

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◆ operator*() [2/16]

Time ns3::operator* ( const int64x64_t & lhs,
const Time & rhs )
inline

Scale a Time by a numeric value.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The Time scaled by the other operand.

Definition at line 978 of file nstime.h.

◆ operator*() [3/16]

SpectrumValue ns3::operator* ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs * rhs

Definition at line 465 of file spectrum-value.cc.

◆ operator*() [4/16]

SpectrumValue ns3::operator* ( const SpectrumValue & lhs,
double rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs * rhs

Definition at line 473 of file spectrum-value.cc.

◆ operator*() [5/16]

double ns3::operator* ( const Time & lhs,
const DataRate & rhs )

Multiply time value by a data rate.

Calculates the number of bits that have been transmitted over a period of time

Parameters
lhstime
rhsrate
Returns
the number of bits over the period of time

Definition at line 281 of file data-rate.cc.

References ns3::DataRate::GetBitRate(), and ns3::Time::GetSeconds().

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◆ operator*() [6/16]

Time ns3::operator* ( const Time & lhs,
const int64x64_t & rhs )
inline

Scale a Time by a numeric value.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The Time scaled by the other operand.

Definition at line 964 of file nstime.h.

◆ operator*() [7/16]

template<class T >
std::enable_if_t< std::is_integral_v< T >, Time > ns3::operator* ( const Time & lhs,
T rhs )

Scale a Time by an integer value.

Template Parameters
TInteger data type (int, long, etc.)
Parameters
[in]lhsThe Time instance to scale
[in]rhsThe scale value
Returns
A new Time instance containing the scaled value

Definition at line 994 of file nstime.h.

◆ operator*() [8/16]

template<class T >
std::enable_if_t< std::is_floating_point_v< T >, Time > ns3::operator* ( const Time & lhs,
T rhs )
Template Parameters
TInteger data type (int, long, etc.)
Parameters
[in]lhsThe Time instance to scale
[in]rhsThe scale value
Returns
A new Time instance containing the scaled value

Definition at line 1004 of file nstime.h.

◆ operator*() [9/16]

double ns3::operator* ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The dot product of a and b .

Definition at line 291 of file vector.cc.

◆ operator*() [10/16]

Vector2D ns3::operator* ( const Vector2D & a,
double b )
Parameters
[in]alhs vector.
[in]brhs scalar.
Returns
The vector a scaled by b .

Definition at line 279 of file vector.cc.

◆ operator*() [11/16]

double ns3::operator* ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The dot product of a and b .

Definition at line 206 of file vector.cc.

◆ operator*() [12/16]

Vector3D ns3::operator* ( const Vector3D & a,
double b )
Parameters
[in]alhs vector.
[in]brhs scalar.
Returns
The vector a scaled by b .

Definition at line 194 of file vector.cc.

◆ operator*() [13/16]

Vector2D ns3::operator* ( double a,
const Vector2D & b )
Parameters
[in]alhs scalar.
[in]brhs vector.
Returns
The vector b scaled by a .

Definition at line 285 of file vector.cc.

◆ operator*() [14/16]

Vector3D ns3::operator* ( double a,
const Vector3D & b )
Parameters
[in]alhs scalar.
[in]brhs vector.
Returns
The vector b scaled by a .

Definition at line 200 of file vector.cc.

◆ operator*() [15/16]

SpectrumValue ns3::operator* ( double lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs * rhs

Definition at line 481 of file spectrum-value.cc.

◆ operator*() [16/16]

template<class T >
std::enable_if_t< std::is_arithmetic_v< T >, Time > ns3::operator* ( T lhs,
const Time & rhs )

Scale a Time by a numeric value.

This overload handles the case where the scale value comes before the Time value. It swaps the arguments so that the Time argument comes first and calls the appropriate overload of operator*

Template Parameters
TArithmetic data type (int, long, float, etc.)
Parameters
[in]lhsThe scale value
[in]rhsThe Time instance to scale
Returns
A new Time instance containing the scaled value

Definition at line 1024 of file nstime.h.

◆ operator+() [1/10]

template<typename Item >
QueueSize ns3::operator+ ( const Ptr< Item > & lhs,
const QueueSize & rhs )

Increase the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.

Parameters
lhspacket
rhsqueue size
Returns
the queue size increased by the packet size

Definition at line 275 of file queue-size.h.

References BYTES, ns3::QueueSize::GetUnit(), ns3::QueueSize::GetValue(), NS_FATAL_ERROR, and PACKETS.

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◆ operator+() [2/10]

template<typename Item >
QueueSize ns3::operator+ ( const QueueSize & lhs,
const Ptr< Item > & rhs )

Increase the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.

Implementation of the templates declared above.

Parameters
lhsqueue size
rhspacket
Returns
the queue size increased by the packet size

Definition at line 260 of file queue-size.h.

References BYTES, ns3::QueueSize::GetUnit(), ns3::QueueSize::GetValue(), NS_FATAL_ERROR, and PACKETS.

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◆ operator+() [3/10]

SpectrumValue ns3::operator+ ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs + rhs

Definition at line 404 of file spectrum-value.cc.

◆ operator+() [4/10]

SpectrumValue ns3::operator+ ( const SpectrumValue & lhs,
double rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs + rhs

Definition at line 424 of file spectrum-value.cc.

◆ operator+() [5/10]

SpectrumValue ns3::operator+ ( const SpectrumValue & rhs)
Parameters
rhsRight Hand Side of the operator
Returns
the value of *this

Definition at line 513 of file spectrum-value.cc.

◆ operator+() [6/10]

Time ns3::operator+ ( const Time & lhs,
const Time & rhs )
inline

Addition operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The sum of the two input values.

Definition at line 940 of file nstime.h.

◆ operator+() [7/10]

Vector2D ns3::operator+ ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The vector sum of a and b .

Definition at line 267 of file vector.cc.

◆ operator+() [8/10]

Vector3D ns3::operator+ ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The vector sum of a and b .

Definition at line 182 of file vector.cc.

◆ operator+() [9/10]

WifiPhyTraceStatistics ns3::operator+ ( const WifiPhyTraceStatistics & lhs,
const WifiPhyTraceStatistics & rhs )

Adds two WifiPhyTraceStatistics objects.

Combines two WifiPhyTraceStatistics objects by summing their counts. This can be useful for aggregating statistics from multiple sources or time periods.

Parameters
lhsThe left-hand side WifiPhyTraceStatistics object to be added.
rhsThe right-hand side WifiPhyTraceStatistics object to be added.
Returns
A new WifiPhyTraceStatistics object that is the result of the addition.

Definition at line 358 of file wifi-phy-rx-trace-helper.cc.

References ns3::WifiPhyTraceStatistics::m_failedMpdus, ns3::WifiPhyTraceStatistics::m_failedPpdus, ns3::WifiPhyTraceStatistics::m_nonOverlappingPpdus, ns3::WifiPhyTraceStatistics::m_overlappingPpdus, ns3::WifiPhyTraceStatistics::m_ppduDropReasons, ns3::WifiPhyTraceStatistics::m_receivedMpdus, and ns3::WifiPhyTraceStatistics::m_receivedPpdus.

◆ operator+() [10/10]

SpectrumValue ns3::operator+ ( double lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs + rhs

Definition at line 432 of file spectrum-value.cc.

◆ operator+=()

Time & ns3::operator+= ( Time & lhs,
const Time & rhs )
inline

Compound addition assignment for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The sum of the two inputs.

Definition at line 1155 of file nstime.h.

◆ operator-() [1/9]

template<typename Item >
QueueSize ns3::operator- ( const Ptr< Item > & lhs,
const QueueSize & rhs )

Decrease the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.

Parameters
lhspacket
rhsqueue size
Returns
the queue size decreased by the packet size

Definition at line 307 of file queue-size.h.

References BYTES, ns3::QueueSize::GetUnit(), ns3::QueueSize::GetValue(), NS_ABORT_IF, NS_FATAL_ERROR, and PACKETS.

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◆ operator-() [2/9]

template<typename Item >
QueueSize ns3::operator- ( const QueueSize & lhs,
const Ptr< Item > & rhs )

Decrease the queue size by a packet size, if the queue size is in bytes, or by one, otherwise.

Parameters
lhsqueue size
rhspacket
Returns
the queue size decreased by the packet size

Definition at line 290 of file queue-size.h.

References BYTES, ns3::QueueSize::GetUnit(), ns3::QueueSize::GetValue(), NS_ABORT_IF, NS_FATAL_ERROR, and PACKETS.

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◆ operator-() [3/9]

SpectrumValue ns3::operator- ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs - rhs

Definition at line 440 of file spectrum-value.cc.

◆ operator-() [4/9]

SpectrumValue ns3::operator- ( const SpectrumValue & lhs,
double rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs - rhs

Definition at line 449 of file spectrum-value.cc.

◆ operator-() [5/9]

SpectrumValue ns3::operator- ( const SpectrumValue & rhs)
Parameters
rhsRight Hand Side of the operator
Returns
the value of - *this

Definition at line 519 of file spectrum-value.cc.

◆ operator-() [6/9]

Time ns3::operator- ( const Time & lhs,
const Time & rhs )
inline

Subtraction operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The difference of the two input values.

Definition at line 952 of file nstime.h.

◆ operator-() [7/9]

Vector2D ns3::operator- ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The vector difference of a and b .

Definition at line 273 of file vector.cc.

◆ operator-() [8/9]

Vector3D ns3::operator- ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
The vector difference of a and b .

Definition at line 188 of file vector.cc.

◆ operator-() [9/9]

SpectrumValue ns3::operator- ( double lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs - rhs

Definition at line 457 of file spectrum-value.cc.

◆ operator-=()

Time & ns3::operator-= ( Time & lhs,
const Time & rhs )
inline

Compound subtraction assignment for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The difference of the two operands.

Definition at line 1168 of file nstime.h.

◆ operator/() [1/7]

SpectrumValue ns3::operator/ ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of lhs / rhs

Definition at line 489 of file spectrum-value.cc.

◆ operator/() [2/7]

SpectrumValue ns3::operator/ ( const SpectrumValue & lhs,
double rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of *this / rhs

Definition at line 497 of file spectrum-value.cc.

◆ operator/() [3/7]

Time ns3::operator/ ( const Time & lhs,
const int64x64_t & rhs )
inline

Scale a Time by a numeric value.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The Time divided by the scalar operand.

Definition at line 1062 of file nstime.h.

◆ operator/() [4/7]

int64x64_t ns3::operator/ ( const Time & lhs,
const Time & rhs )
inline

Exact division, returning a dimensionless fixed point number.

This can be truncated to integer, or converted to double (with loss of precision). Assuming ta and tb are Times:

int64x64_t ratio = ta / tb;
int64_t i = ratio.GetHigh (); // Get just the integer part, resulting in truncation
double ratioD = double (ratio); // Convert to double, with loss of precision
High precision numerical type, implementing Q64.64 fixed precision.
int64_t GetHigh() const
Get the integer portion.
Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
The exact ratio of the two operands.

Definition at line 1048 of file nstime.h.

◆ operator/() [5/7]

template<class T >
std::enable_if_t< std::is_integral_v< T >, Time > ns3::operator/ ( const Time & lhs,
T rhs )

Divide a Time by an integer value.

Template Parameters
TInteger data type (int, long, etc.)
Parameters
[in]lhsThe Time instance to scale
[in]rhsThe scale value
Returns
A new Time instance containing the scaled value

Definition at line 1080 of file nstime.h.

◆ operator/() [6/7]

template<class T >
std::enable_if_t< std::is_floating_point_v< T >, Time > ns3::operator/ ( const Time & lhs,
T rhs )
Template Parameters
TInteger data type (int, long, etc.)
Parameters
[in]lhsThe Time instance to scale
[in]rhsThe scale value
Returns
A new Time instance containing the scaled value

Definition at line 1090 of file nstime.h.

◆ operator/() [7/7]

SpectrumValue ns3::operator/ ( double lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
the value of *this / rhs

Definition at line 505 of file spectrum-value.cc.

◆ operator<() [1/29]

bool ns3::operator< ( const Address & a,
const Address & b )
Parameters
athe first operand
bthe first operand
Returns
true if the operand a is less than operand b

Definition at line 200 of file address.cc.

◆ operator<() [2/29]

bool ns3::operator< ( const EpcEnbApplication::EpsFlowId_t & a,
const EpcEnbApplication::EpsFlowId_t & b )
Parameters
afirst application
bsecond application
Returns
true is the applications are "equal"

Definition at line 42 of file epc-enb-application.cc.

◆ operator<() [3/29]

bool ns3::operator< ( const EventId & a,
const EventId & b )
inline
Parameters
[in]aThe first EventId.
[in]bThe second EventId.
Returns
true if a occurs before b .

Definition at line 167 of file event-id.h.

◆ operator<() [4/29]

bool ns3::operator< ( const FcfsPrio & lhs,
const FcfsPrio & rhs )
Parameters
lhsthe left hand side priority
rhsthe right hand side priority
Returns
whether the left hand side priority is less than the right hand side priority

Definition at line 27 of file fcfs-wifi-queue-scheduler.cc.

References ns3::FcfsPrio::priority, ns3::FcfsPrio::type, WIFI_CTL_QUEUE, and WIFI_MGT_QUEUE.

◆ operator<() [5/29]

bool ns3::operator< ( const FrequencyRange & lhs,
const FrequencyRange & rhs )

Compare two FrequencyRange values.

Parameters
lhsthe FrequencyRange value on the left of operator
rhsthe FrequencyRange value on the right of operator
Returns
true if minFrequency of left is less than minFrequency of right, false otherwise

Definition at line 1125 of file wifi-spectrum-value-helper.cc.

References ns3::FrequencyRange::minFrequency.

◆ operator<() [6/29]

bool ns3::operator< ( const ImsiLcidPair_t & a,
const ImsiLcidPair_t & b )

Less than operator.

Parameters
alhs
brhs
Returns
true if "less than"

Definition at line 86 of file lte-common.cc.

◆ operator<() [7/29]

bool ns3::operator< ( const Ipv4Address & a,
const Ipv4Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the first operand is less than the second.

Definition at line 378 of file ipv4-address.h.

◆ operator<() [8/29]

◆ operator<() [9/29]

bool ns3::operator< ( const Ipv6Address & a,
const Ipv6Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the first operand is less than the second.

Definition at line 655 of file ipv6-address.h.

◆ operator<() [10/29]

◆ operator<() [11/29]

bool ns3::operator< ( const LteFlowId_t & a,
const LteFlowId_t & b )

Less than operator.

Parameters
alhs
brhs
Returns
true if "less than"

Definition at line 50 of file lte-common.cc.

◆ operator<() [12/29]

bool ns3::operator< ( const LteSpectrumModelId & a,
const LteSpectrumModelId & b )

Constructor.

Parameters
alhs
brhs
Returns
true if earfcn less than of if earfcn equal and bandwidth less than

Definition at line 229 of file lte-spectrum-value-helper.cc.

References ns3::LteSpectrumModelId::bandwidth, and ns3::LteSpectrumModelId::earfcn.

◆ operator<() [13/29]

bool ns3::operator< ( const LteUeConfig_t & a,
const LteUeConfig_t & b )

Less than operator.

Parameters
alhs
brhs
Returns
true if "less than"

Definition at line 116 of file lte-common.cc.

◆ operator<() [14/29]

bool ns3::operator< ( const Mac16Address & a,
const Mac16Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operand a is less than operand b

Definition at line 238 of file mac16-address.h.

◆ operator<() [15/29]

bool ns3::operator< ( const Mac48Address & a,
const Mac48Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operand a is less than operand b

Definition at line 222 of file mac48-address.h.

◆ operator<() [16/29]

bool ns3::operator< ( const Mac64Address & a,
const Mac64Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operand a is less than operand b

Definition at line 194 of file mac64-address.h.

◆ operator<() [17/29]

bool ns3::operator< ( const Mac8Address & a,
const Mac8Address & b )

Address comparison, less than.

Parameters
aFirst address to compare.
bSecond address to compare.
Returns
True if a < b.

Definition at line 109 of file mac8-address.cc.

◆ operator<() [18/29]

Less than operator for CellIdRnti, because it is used as key in map.

Parameters
athe lhs operand
bthe rhs operand
Returns
true if less than

Definition at line 25 of file radio-bearer-stats-connector.cc.

◆ operator<() [19/29]

bool ns3::operator< ( const Scheduler::Event & a,
const Scheduler::Event & b )
inline

Compare (less than) two events by Event.

Parameters
[in]aThe first event.
[in]bThe second event.
Returns
true if a < b

Definition at line 313 of file scheduler.h.

References ns3::Scheduler::Event::key.

◆ operator<() [20/29]

bool ns3::operator< ( const TbId_t & a,
const TbId_t & b )

Less than operator.

Parameters
alhs
brhs
Returns
true if rnti less than ro rnti equal and layer less than

Definition at line 79 of file lte-spectrum-phy.cc.

◆ operator<() [21/29]

bool ns3::operator< ( const Time & lhs,
const Time & rhs )
inline

Less than operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the first input value is less than the second input value.

Definition at line 886 of file nstime.h.

◆ operator<() [22/29]

bool ns3::operator< ( const Time & time,
const EventId & event )
inline

Compare a Time to an EventId.

This is useful when you have cached a previously scheduled event:

m_event = Schedule (...);

and later you want to know the relationship between that event and some other Time when:

if (when < m_event) ...
Parameters
[in]timeThe Time operand.
[in]eventThe EventId
Returns
true if time is before (less than) the time stamp of the EventId.

Definition at line 921 of file nstime.h.

◆ operator<() [23/29]

bool ns3::operator< ( const TvSpectrumModelId & a,
const TvSpectrumModelId & b )

Minus-than operator.

Parameters
aleft operand
bright operand
Returns
true if the left operand has a lower starting frequency or a smaller bandwidth (if both have the same starting freq.)

Definition at line 208 of file tv-spectrum-transmitter.cc.

References ns3::TvSpectrumModelId::bandwidth, and ns3::TvSpectrumModelId::startFrequency.

◆ operator<() [24/29]

bool ns3::operator< ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is less than b

Definition at line 230 of file vector.cc.

◆ operator<() [25/29]

bool ns3::operator< ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is less than b

Definition at line 145 of file vector.cc.

◆ operator<() [26/29]

bool ns3::operator< ( const WifiMode & a,
const WifiMode & b )

Compare two WifiModes.

Parameters
aWifiMode
bWifiMode
Returns
true if a is less than b, false otherwise

Definition at line 34 of file wifi-mode.cc.

References ns3::WifiMode::GetUid().

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◆ operator<() [27/29]

bool ns3::operator< ( const WifiPpduRxRecord & lhs,
const WifiPpduRxRecord & rhs )

Determines if one WifiPpduRxRecord object is less than another.

Compares two WifiPpduRxRecord objects to determine if the left-hand side object is considered less than the right-hand side object based on a specific criteria of comparison, such as a key property value.

Note
The specific criteria for comparison should be defined and consistent.
Parameters
lhsThe left-hand side WifiPpduRxRecord object in the comparison.
rhsThe right-hand side WifiPpduRxRecord object in the comparison.
Returns
true if lhs is considered less than rhs, false otherwise.

Definition at line 351 of file wifi-phy-rx-trace-helper.cc.

References ns3::WifiPpduRxRecord::m_rxTag.

◆ operator<() [28/29]

bool ns3::operator< ( const WifiSpectrumModelId & lhs,
const WifiSpectrumModelId & rhs )

Less than operator.

Parameters
lhsthe left hand side wifi spectrum to compare
rhsthe right hand side wifi spectrum to compare
Returns
true if the left hand side spectrum is less than the right hand side spectrum

Definition at line 65 of file wifi-spectrum-value-helper.cc.

References ns3::WifiSpectrumModelId::carrierSpacing, ns3::WifiSpectrumModelId::centerFrequencies, ns3::WifiSpectrumModelId::channelWidth, and ns3::WifiSpectrumModelId::guardBandwidth.

◆ operator<() [29/29]

bool ns3::operator< ( TypeId a,
TypeId b )

Comparison operator.

Parameters
[in]aOne value.
[in]bThe other value.
Returns
The result of the comparison.

Definition at line 1322 of file type-id.cc.

◆ operator<<() [1/138]

std::ostream & ns3::operator<< ( std::ostream & lhs,
TxSpectrumModelInfoMap_t & rhs )

Output stream operator.

Parameters
lhsoutput stream
rhsthe TxSpectrumModelInfoMap to print
Returns
an output stream

Definition at line 47 of file multi-model-spectrum-channel.cc.

◆ operator<<() [2/138]

std::ostream & ns3::operator<< ( std::ostream & os,
AlohaNoackNetDevice::State state )

Output stream operator.

Parameters
osoutput stream
statethe state to print
Returns
an output stream

Definition at line 35 of file aloha-noack-net-device.cc.

References ns3::AlohaNoackNetDevice::IDLE, ns3::AlohaNoackNetDevice::RX, and ns3::AlohaNoackNetDevice::TX.

◆ operator<<() [3/138]

std::ostream & ns3::operator<< ( std::ostream & os,
ChannelCondition::LosConditionValue cond )
Parameters
osthe output stream
condthe LosConditionValue
Returns
a reference to the output stream

Definition at line 179 of file channel-condition-model.cc.

◆ operator<<() [4/138]

std::ostream & ns3::operator<< ( std::ostream & os,
ConfigStore::FileFormat & format )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]formatThe configStore file format.
Returns
The reference to the output stream.

Definition at line 210 of file config-store.cc.

References ns3::ConfigStore::RAW_TEXT, and ns3::ConfigStore::XML.

◆ operator<<() [5/138]

std::ostream & ns3::operator<< ( std::ostream & os,
ConfigStore::Mode & mode )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]modeThe configStore mode.
Returns
The reference to the output stream.

Definition at line 190 of file config-store.cc.

References ns3::ConfigStore::LOAD, ns3::ConfigStore::NONE, and ns3::ConfigStore::SAVE.

◆ operator<<() [6/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const AcIndex & acIndex )
inline

Stream insertion operator.

Parameters
osthe stream
acIndexthe AC index
Returns
a reference to the stream

Definition at line 86 of file qos-utils.h.

References AC_BE, AC_BE_NQOS, AC_BEACON, AC_BK, AC_UNDEF, AC_VI, AC_VO, and NS_FATAL_ERROR.

◆ operator<<() [7/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Address & address )
Parameters
osthe stream
addressthe address
Returns
a reference to the stream

Definition at line 234 of file address.cc.

◆ operator<<() [8/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Angles & a )
Parameters
[in]osThe reference to the output stream.
[in]aThe angle.
Returns
The reference to the output stream.

Definition at line 147 of file angles.cc.

◆ operator<<() [9/138]

template<typename T >
std::ostream & ns3::operator<< ( std::ostream & os,
const Average< T > & x )

Print avg (err) [min, max].

Parameters
osThe output stream
xThe Average value to print
Returns
the output stream.

Definition at line 196 of file average.h.

◆ operator<<() [10/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const BlockAckReqType & type )

Serialize BlockAckReqType to ostream in a human-readable form.

Parameters
osstd::ostream
typeblock ack request type
Returns
std::ostream

Definition at line 103 of file block-ack-type.cc.

References ns3::BlockAckReqType::BASIC, ns3::BlockAckReqType::COMPRESSED, ns3::BlockAckReqType::EXTENDED_COMPRESSED, ns3::BlockAckReqType::MULTI_TID, and NS_FATAL_ERROR.

◆ operator<<() [11/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const BlockAckType & type )

Serialize BlockAckType to ostream in a human-readable form.

Parameters
osstd::ostream
typeblock ack type
Returns
std::ostream

Definition at line 77 of file block-ack-type.cc.

References ns3::BlockAckType::BASIC, ns3::BlockAckType::COMPRESSED, ns3::BlockAckType::EXTENDED_COMPRESSED, ns3::BlockAckType::MULTI_STA, ns3::BlockAckType::MULTI_TID, and NS_FATAL_ERROR.

◆ operator<<() [12/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const BooleanValue & value )

Output streamer.

The value is printed as "true" or "false".

Parameters
[in,out]osThe stream.
[in]valueThe BooleanValue to print.
Returns
The stream.

Definition at line 55 of file boolean.cc.

◆ operator<<() [13/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Box & box )

Stream insertion operator.

Parameters
osthe stream
boxthe box
Returns
a reference to the stream

Definition at line 200 of file box.cc.

References ns3::Box::xMax, ns3::Box::xMin, ns3::Box::yMax, ns3::Box::yMin, ns3::Box::zMax, and ns3::Box::zMin.

◆ operator<<() [14/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const CandidateQueue & q )
Parameters
osthe reference to the output stream
qthe CandidateQueue
Returns
the reference to the output stream

Definition at line 47 of file candidate-queue.cc.

◆ operator<<() [15/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Cid & cid )

output stream output operator

Parameters
osoutput stream
cidCID
Returns
output stream

Definition at line 111 of file cid.cc.

References ns3::Cid::GetIdentifier().

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◆ operator<<() [16/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const CommandLine & cmd )

Overloaded operator << to print program usage (shortcut for CommandLine::PrintHelper)

See also
CommandLine::PrintHelper

Example usage:

CommandLine cmd (__FILE__);
cmd.Parse (argc, argv);
...
std::cerr << cmd;
Parse command-line arguments.
Parameters
[in,out]osThe stream to print on.
[in]cmdThe CommandLine describing the program.
Returns
The stream.

Definition at line 970 of file command-line.cc.

◆ operator<<() [17/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const DataRate & rate )

Stream insertion operator.

Parameters
osthe stream
ratethe data rate
Returns
a reference to the stream

Definition at line 251 of file data-rate.cc.

References ns3::DataRate::GetBitRate().

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◆ operator<<() [18/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const EpcTft::Direction & d )

Output stream operator for EPC TFT direction.

Parameters
osoutput stream
dEPC TFT direction
Returns
ostream

Definition at line 26 of file epc-tft.cc.

References ns3::EpcTft::DOWNLINK, and ns3::EpcTft::UPLINK.

◆ operator<<() [19/138]

◆ operator<<() [20/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const ErpInformation & erpInformation )

output stream output operator

Parameters
osoutput stream
erpInformationthe ERP Information
Returns
output stream

Definition at line 81 of file erp-information.cc.

References ns3::ErpInformation::GetBarkerPreambleMode(), ns3::ErpInformation::GetNonErpPresent(), and ns3::ErpInformation::GetUseProtection().

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◆ operator<<() [21/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Event & event )

Stream insertion operator.

Parameters
osthe stream
eventthe event
Returns
a reference to the stream

Definition at line 117 of file interference-helper.cc.

◆ operator<<() [22/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const FilsDiscHeader::FdCapability & capability )

◆ operator<<() [23/138]

◆ operator<<() [24/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const FrequencyChannelInfo & info )

Stream insertion operator.

Parameters
osthe stream
infothe frequency channel info
Returns
a reference to the stream

Definition at line 262 of file wifi-phy-operating-channel.cc.

References ns3::FrequencyChannelInfo::band, ns3::FrequencyChannelInfo::frequency, ns3::FrequencyChannelInfo::number, and ns3::FrequencyChannelInfo::width.

◆ operator<<() [25/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const FrequencyRange & freqRange )

Serialize FrequencyRange values to ostream (human-readable).

Parameters
osthe output stream
freqRangethe FrequencyRange
Returns
std::ostream

Definition at line 1143 of file wifi-spectrum-value-helper.cc.

References ns3::FrequencyRange::maxFrequency, and ns3::FrequencyRange::minFrequency.

◆ operator<<() [26/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Header & header )

Stream insertion operator.

Parameters
osthe stream
headerthe header
Returns
a reference to the stream

Definition at line 32 of file header.cc.

References ns3::Header::Print().

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◆ operator<<() [27/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const HePpdu::TxPsdFlag & flag )

Stream insertion operator.

Parameters
osthe stream
flagthe transmit power spectral density flag
Returns
a reference to the stream

Definition at line 28 of file he-ppdu.cc.

References NS_FATAL_ERROR, ns3::HePpdu::PSD_HE_PORTION, and ns3::HePpdu::PSD_NON_HE_PORTION.

◆ operator<<() [28/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const HeRu::RuSpec & ru )

Stream insertion operator.

Parameters
osthe stream
ruthe RU
Returns
a reference to the stream

Definition at line 746 of file he-ru.cc.

References ns3::HeRu::RuSpec::GetIndex(), ns3::HeRu::RuSpec::GetPrimary80MHz(), and ns3::HeRu::RuSpec::GetRuType().

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◆ operator<<() [29/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const HeRu::RuType & ruType )

Stream insertion operator.

Parameters
osthe stream
ruTypethe RU type
Returns
a reference to the stream

Definition at line 714 of file he-ru.cc.

References NS_FATAL_ERROR, ns3::HeRu::RU_106_TONE, ns3::HeRu::RU_242_TONE, ns3::HeRu::RU_26_TONE, ns3::HeRu::RU_2x996_TONE, ns3::HeRu::RU_484_TONE, ns3::HeRu::RU_52_TONE, and ns3::HeRu::RU_996_TONE.

◆ operator<<() [30/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Indent & val )

Output streamer for Indent.

Parameters
[in,out]osThe output stream.
[in]valThe Indent object.
Returns
The stream.

Definition at line 664 of file test.cc.

References ns3::Indent::level.

◆ operator<<() [31/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4Address & address )

Stream insertion operator.

Parameters
osthe stream
addressthe address
Returns
a reference to the stream

Definition at line 397 of file ipv4-address.cc.

◆ operator<<() [32/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4InterfaceAddress & addr )

Stream insertion operator.

Parameters
osthe reference to the output stream
addrthe Ipv4InterfaceAddress
Returns
the reference to the output stream

Definition at line 150 of file ipv4-interface-address.cc.

References ns3::Ipv4InterfaceAddress::GetBroadcast(), ns3::Ipv4InterfaceAddress::GetLocal(), ns3::Ipv4InterfaceAddress::GetMask(), ns3::Ipv4InterfaceAddress::GetScope(), and ns3::Ipv4InterfaceAddress::IsSecondary().

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◆ operator<<() [33/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4Mask & mask )

Stream insertion operator.

Parameters
osthe stream
maskthe mask
Returns
a reference to the stream

Definition at line 404 of file ipv4-address.cc.

References ns3::Ipv4Mask::Print().

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◆ operator<<() [34/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4MulticastRoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv4 multicast routing table entry
Returns
the reference to the output stream

Definition at line 334 of file ipv4-routing-table-entry.cc.

References ns3::Ipv4MulticastRoutingTableEntry::GetGroup(), ns3::Ipv4MulticastRoutingTableEntry::GetInputInterface(), ns3::Ipv4MulticastRoutingTableEntry::GetNOutputInterfaces(), ns3::Ipv4MulticastRoutingTableEntry::GetOrigin(), and ns3::Ipv4MulticastRoutingTableEntry::GetOutputInterface().

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◆ operator<<() [35/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4Route & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv4 route
Returns
the reference to the output stream

Definition at line 80 of file ipv4-route.cc.

References ns3::Ipv4Route::GetDestination(), ns3::Ipv4Route::GetGateway(), and ns3::Ipv4Route::GetSource().

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◆ operator<<() [36/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv4RoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv4 routing table entry
Returns
the reference to the output stream

Definition at line 190 of file ipv4-routing-table-entry.cc.

References ns3::Ipv4RoutingTableEntry::GetDest(), ns3::Ipv4RoutingTableEntry::GetDestNetwork(), ns3::Ipv4RoutingTableEntry::GetDestNetworkMask(), ns3::Ipv4RoutingTableEntry::GetGateway(), ns3::Ipv4RoutingTableEntry::GetInterface(), ns3::Ipv4RoutingTableEntry::IsDefault(), ns3::Ipv4RoutingTableEntry::IsGateway(), ns3::Ipv4RoutingTableEntry::IsHost(), ns3::Ipv4RoutingTableEntry::IsNetwork(), and NS_ASSERT.

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◆ operator<<() [37/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6Address & address )

Stream insertion operator.

Parameters
osthe reference to the output stream
addressthe Ipv6Address
Returns
the reference to the output stream

Definition at line 765 of file ipv6-address.cc.

◆ operator<<() [38/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6InterfaceAddress & addr )

Stream insertion operator.

Parameters
osthe reference to the output stream
addrthe Ipv6InterfaceAddress
Returns
the reference to the output stream

Definition at line 173 of file ipv6-interface-address.cc.

References ns3::Ipv6InterfaceAddress::GetAddress(), ns3::Ipv6InterfaceAddress::GetPrefix(), ns3::Ipv6InterfaceAddress::GetScope(), ns3::Ipv6InterfaceAddress::GLOBAL, ns3::Ipv6InterfaceAddress::HOST, and ns3::Ipv6InterfaceAddress::LINKLOCAL.

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◆ operator<<() [39/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6MulticastRoute & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv6 multicast route
Returns
the reference to the output stream

Definition at line 151 of file ipv6-route.cc.

References ns3::Ipv6MulticastRoute::GetGroup(), ns3::Ipv6MulticastRoute::GetOrigin(), and ns3::Ipv6MulticastRoute::GetParent().

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◆ operator<<() [40/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6MulticastRoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv6 multicast routing table entry
Returns
the reference to the output stream

Definition at line 348 of file ipv6-routing-table-entry.cc.

References ns3::Ipv6MulticastRoutingTableEntry::GetGroup(), ns3::Ipv6MulticastRoutingTableEntry::GetInputInterface(), ns3::Ipv6MulticastRoutingTableEntry::GetNOutputInterfaces(), ns3::Ipv6MulticastRoutingTableEntry::GetOrigin(), and ns3::Ipv6MulticastRoutingTableEntry::GetOutputInterface().

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◆ operator<<() [41/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6Prefix & prefix )

Stream insertion operator.

Parameters
osthe reference to the output stream
prefixthe Ipv6Prefix
Returns
the reference to the output stream

Definition at line 1001 of file ipv6-address.cc.

References ns3::Ipv6Prefix::Print().

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◆ operator<<() [42/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6Route & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv6 route
Returns
the reference to the output stream

Definition at line 74 of file ipv6-route.cc.

References ns3::Ipv6Route::GetDestination(), ns3::Ipv6Route::GetGateway(), and ns3::Ipv6Route::GetSource().

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◆ operator<<() [43/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ipv6RoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv6 routing table entry
Returns
the reference to the output stream

Definition at line 224 of file ipv6-routing-table-entry.cc.

References ns3::Ipv6RoutingTableEntry::GetDest(), ns3::Ipv6RoutingTableEntry::GetDestNetwork(), ns3::Ipv6RoutingTableEntry::GetDestNetworkPrefix(), ns3::Ipv6RoutingTableEntry::GetGateway(), ns3::Ipv6RoutingTableEntry::GetInterface(), ns3::Ipv6Prefix::GetPrefixLength(), ns3::Ipv6RoutingTableEntry::IsDefault(), ns3::Ipv6RoutingTableEntry::IsGateway(), ns3::Ipv6RoutingTableEntry::IsHost(), ns3::Ipv6RoutingTableEntry::IsNetwork(), and NS_ASSERT.

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◆ operator<<() [44/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Mac16Address & address )
Parameters
osthe stream
addressthe address
Returns
a reference to the stream

Definition at line 179 of file mac16-address.cc.

◆ operator<<() [45/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Mac48Address & address )
Parameters
osthe stream
addressthe address
Returns
a reference to the stream

Definition at line 228 of file mac48-address.cc.

◆ operator<<() [46/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Mac64Address & address )
Parameters
osthe stream
addressthe address
Returns
a reference to the stream

Definition at line 163 of file mac64-address.cc.

◆ operator<<() [47/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Mac8Address & address )

Write address to stream os as 8 bit integer.

Parameters
osThe output stream.
addressThe address
Returns
The output stream.

Definition at line 127 of file mac8-address.cc.

◆ operator<<() [48/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const NdiscCache::Entry & entry )

Stream insertion operator.

Parameters
osthe reference to the output stream
entrythe NdiscCache::Entry
Returns
the reference to the output stream

Definition at line 722 of file ndisc-cache.cc.

References ns3::NdiscCache::Entry::Print().

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◆ operator<<() [49/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const NixVector & nix )
Parameters
osthe stream
nixthe Nixvector
Returns
a reference to the stream

Definition at line 68 of file nix-vector.cc.

◆ operator<<() [50/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const ObjectFactory & factory )

The configuration will be printed as a string with the form "<TypeId-name>[<attribute-name>=<attribute-value>|...]"

Parameters
[in,out]osThe stream.
[in]factoryThe ObjectFactory.
Returns
The stream.

Definition at line 98 of file object-factory.cc.

◆ operator<<() [51/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Packet & packet )

Stream insertion operator.

Parameters
osthe stream
packetthe packet
Returns
a reference to the stream

Definition at line 1014 of file packet.cc.

References ns3::Packet::Print().

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◆ operator<<() [52/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const PhyEntity::PhyFieldRxStatus & status )

Stream insertion operator.

Parameters
osthe stream
statusthe status of the reception of a PPDU field
Returns
a reference to the stream

Definition at line 55 of file phy-entity.cc.

References ns3::PhyEntity::PhyFieldRxStatus::actionIfFailure, ns3::PhyEntity::PhyFieldRxStatus::isSuccess, and ns3::PhyEntity::PhyFieldRxStatus::reason.

◆ operator<<() [53/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const PhyEntity::PhyRxFailureAction & action )

Stream insertion operator.

Parameters
osthe stream
actionthe action to perform in case of failure
Returns
a reference to the stream

Definition at line 38 of file phy-entity.cc.

References ns3::PhyEntity::ABORT, ns3::PhyEntity::DROP, ns3::PhyEntity::IGNORE, and NS_FATAL_ERROR.

◆ operator<<() [54/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Priomap & priomap )

Serialize the priomap to the given ostream.

Parameters
os
priomap
Returns
std::ostream

Definition at line 28 of file prio-queue-disc.cc.

◆ operator<<() [55/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Ptr< const WifiPpdu > & ppdu )

Stream insertion operator.

Parameters
osthe stream
ppduthe const pointer to the PPDU
Returns
a reference to the stream

Definition at line 288 of file wifi-ppdu.cc.

◆ operator<<() [56/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const QueueDisc::Stats & stats )

Stream insertion operator.

Parameters
osthe stream
statsthe queue disc statistics
Returns
a reference to the stream

Definition at line 228 of file queue-disc.cc.

References ns3::QueueDisc::Stats::Print().

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◆ operator<<() [57/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const QueueItem & item )

Stream insertion operator.

Parameters
osthe stream
itemthe item
Returns
a reference to the stream

Definition at line 59 of file queue-item.cc.

References ns3::QueueItem::Print().

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◆ operator<<() [58/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const QueueSize & size )

Stream insertion operator.

Parameters
osthe stream
sizethe queue size
Returns
a reference to the stream

Definition at line 186 of file queue-size.cc.

References ns3::QueueSize::GetUnit(), ns3::QueueSize::GetValue(), and PACKETS.

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◆ operator<<() [59/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Rectangle & rectangle )

Stream insertion operator.

Parameters
osthe stream
rectanglethe rectangle
Returns
a reference to the stream

Definition at line 185 of file rectangle.cc.

References ns3::Rectangle::xMax, ns3::Rectangle::xMin, ns3::Rectangle::yMax, and ns3::Rectangle::yMin.

◆ operator<<() [60/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Rectangle::Side & side )

Stream insertion operator.

Parameters
osthe stream
sidethe rectangle side
Returns
a reference to the stream

Definition at line 220 of file rectangle.cc.

References ns3::Rectangle::BOTTOMLEFTCORNER, ns3::Rectangle::BOTTOMRIGHTCORNER, ns3::Rectangle::BOTTOMSIDE, ns3::Rectangle::LEFTSIDE, ns3::Rectangle::RIGHTSIDE, ns3::Rectangle::TOPLEFTCORNER, ns3::Rectangle::TOPRIGHTCORNER, and ns3::Rectangle::TOPSIDE.

◆ operator<<() [61/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipHeader & h )

Stream insertion operator.

Parameters
osthe reference to the output stream
hthe Rip header
Returns
the reference to the output stream

Definition at line 294 of file rip-header.cc.

References ns3::RipHeader::Print().

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◆ operator<<() [62/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipNgHeader & h )

Stream insertion operator.

Parameters
osthe reference to the output stream
hthe RIPng header
Returns
the reference to the output stream

Definition at line 276 of file ripng-header.cc.

References ns3::RipNgHeader::Print().

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◆ operator<<() [63/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipNgRoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv6 routing table entry
Returns
the reference to the output stream

Definition at line 1501 of file ripng.cc.

References ns3::RipNgRoutingTableEntry::GetRouteMetric(), and ns3::RipNgRoutingTableEntry::GetRouteTag().

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◆ operator<<() [64/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipNgRte & h )

Stream insertion operator.

Parameters
osthe reference to the output stream
hthe Routing Table Entry
Returns
the reference to the output stream

Definition at line 133 of file ripng-header.cc.

References ns3::RipNgRte::Print().

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◆ operator<<() [65/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipRoutingTableEntry & route )

Stream insertion operator.

Parameters
osthe reference to the output stream
routethe Ipv4 routing table entry
Returns
the reference to the output stream

Definition at line 1492 of file rip.cc.

References ns3::RipRoutingTableEntry::GetRouteMetric(), and ns3::RipRoutingTableEntry::GetRouteTag().

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◆ operator<<() [66/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const RipRte & h )

Stream insertion operator.

Parameters
osthe reference to the output stream
hthe Routing Table Entry
Returns
the reference to the output stream

Definition at line 151 of file rip-header.cc.

References ns3::RipRte::Print().

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◆ operator<<() [67/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SequenceNumber10 & val )

Ostream output function.

Parameters
osthe output stream
valthe sequence number
Returns
the os

Definition at line 20 of file lte-rlc-sequence-number.cc.

◆ operator<<() [68/138]

template<typename NUMERIC_TYPE , typename SIGNED_TYPE >
std::ostream & ns3::operator<< ( std::ostream & os,
const SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE > & val )

Stream insertion operator.

Parameters
osthe stream
valthe value
Returns
a reference to the stream

Definition at line 389 of file sequence-number.h.

References ns3::SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE >::m_value.

◆ operator<<() [69/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanBc0 & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe BC0 Extension Header.
Returns
The reference to the output stream.

Definition at line 1932 of file sixlowpan-header.cc.

References ns3::SixLowPanBc0::Print().

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◆ operator<<() [70/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanFrag1 & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe Frag1 Header.
Returns
The reference to the output stream.

Definition at line 634 of file sixlowpan-header.cc.

References ns3::SixLowPanFrag1::Print().

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◆ operator<<() [71/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanFragN & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe FragN Header.
Returns
The reference to the output stream.

Definition at line 751 of file sixlowpan-header.cc.

References ns3::SixLowPanFragN::Print().

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◆ operator<<() [72/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanHc1 & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe HC1 Header.
Returns
The reference to the output stream.

Definition at line 538 of file sixlowpan-header.cc.

References ns3::SixLowPanHc1::Print().

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◆ operator<<() [73/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanIphc & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe IPHC Header.
Returns
The reference to the output stream.

Definition at line 1494 of file sixlowpan-header.cc.

References ns3::SixLowPanIphc::Print().

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◆ operator<<() [74/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanIpv6 & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe Frag1 Header.
Returns
The reference to the output stream.

Definition at line 813 of file sixlowpan-header.cc.

References ns3::SixLowPanIpv6::Print().

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◆ operator<<() [75/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanMesh & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe Mesh Extension Header.
Returns
The reference to the output stream.

Definition at line 2184 of file sixlowpan-header.cc.

References ns3::SixLowPanMesh::Print().

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◆ operator<<() [76/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanNhcExtension & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe NHC Extension Header.
Returns
The reference to the output stream.

Definition at line 1637 of file sixlowpan-header.cc.

References ns3::SixLowPanNhcExtension::Print().

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◆ operator<<() [77/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SixLowPanUdpNhcExtension & header )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]headerThe UDP NHC Extension Header.
Returns
The reference to the output stream.

Definition at line 1851 of file sixlowpan-header.cc.

References ns3::SixLowPanUdpNhcExtension::Print().

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◆ operator<<() [78/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SpectrumValue & pvf )

Output stream operator.

Parameters
osoutput stream
pvfthe SpectrumValue to print
Returns
an output stream

Definition at line 382 of file spectrum-value.cc.

References ns3::SpectrumValue::ConstValuesBegin(), and ns3::SpectrumValue::ConstValuesEnd().

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◆ operator<<() [79/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SPFVertex::ListOfSPFVertex_t & vs )
Parameters
osthe reference to the output stream
vsa list of SPFVertex items
Returns
the reference to the output stream

Definition at line 51 of file global-route-manager-impl.cc.

◆ operator<<() [80/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SPFVertex::NodeExit_t & exit )

Stream insertion operator.

Parameters
osthe reference to the output stream
exitthe exit node
Returns
the reference to the output stream

Definition at line 44 of file global-route-manager-impl.cc.

◆ operator<<() [81/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const SPFVertex::VertexType & t )

Stream insertion operator.

Parameters
osthe reference to the output stream
tthe SPFVertex type
Returns
the reference to the output stream

Definition at line 29 of file candidate-queue.cc.

References ns3::SPFVertex::VertexNetwork, and ns3::SPFVertex::VertexRouter.

◆ operator<<() [82/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const StatusCode & code )

Serialize StatusCode to the given ostream.

Parameters
osthe output stream
codethe StatusCode
Returns
std::ostream

Definition at line 56 of file status-code.cc.

References ns3::StatusCode::IsSuccess().

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◆ operator<<() [83/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const StaWifiMac::ApInfo & apInfo )

◆ operator<<() [84/138]

template<class A , class B >
std::ostream & ns3::operator<< ( std::ostream & os,
const std::pair< A, B > & p )

Output streamer for a std::pair.

Template Parameters
A[deduced] Type of the pair.first.
B[deduced] Type of the pair.second.
Parameters
[in,out]osThe output stream.
[in]pThe pair.
Returns
The output stream.

Definition at line 32 of file pair.h.

◆ operator<<() [85/138]

template<class... Args>
std::ostream & ns3::operator<< ( std::ostream & os,
const std::tuple< Args... > & t )

Stream insertion operator.

See https://en.cppreference.com/w/cpp/utility/apply

Prints tuple values separated by a comma. E.g., if the tuple contains v1, v2 and v3, then "v1, v2, v3" will be added to the stream.

Template Parameters
Args[deduced] Tuple arguments
Parameters
osthe output stream
tthe tuple
Returns
a reference to the stream

Definition at line 37 of file tuple.h.

◆ operator<<() [86/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TcpHeader & tc )
Parameters
osoutput stream
tcTCP header to print
Returns
The ostream passed as first argument

Definition at line 490 of file tcp-header.cc.

◆ operator<<() [87/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TcpOptionSack & sackOption )

Output operator.

Parameters
osThe output stream.
sackOptionthe option to print.
Returns
The output stream.

Definition at line 148 of file tcp-option-sack.cc.

◆ operator<<() [88/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TcpOptionSack::SackBlock & sackBlock )

Output operator.

Parameters
osThe output stream.
sackBlockthe block to print.
Returns
The output stream.

Definition at line 162 of file tcp-option-sack.cc.

◆ operator<<() [89/138]

◆ operator<<() [90/138]

◆ operator<<() [91/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TcpTxBuffer & tcpTxBuf )

Output operator.

Parameters
osThe output stream.
tcpTxBufthe TcpTxBuffer to print.
Returns
The output stream.

Definition at line 1456 of file tcp-tx-buffer.cc.

◆ operator<<() [92/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TcpTxItem & item )

Output operator.

Parameters
osThe output stream.
itemthe item to print.
Returns
The output stream.

Definition at line 1449 of file tcp-tx-buffer.cc.

References ns3::TcpTxItem::Print().

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◆ operator<<() [93/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TestCaseFailure & failure )

Output streamer for TestCaseFailure.

Parameters
[in,out]osThe output stream.
[in]failureThe TestCaseFailure to print.
Returns
The stream.

Definition at line 97 of file test.cc.

References ns3::TestCaseFailure::actual, ns3::TestCaseFailure::cond, ns3::TestCaseFailure::file, ns3::TestCaseFailure::limit, ns3::TestCaseFailure::line, and ns3::TestCaseFailure::message.

◆ operator<<() [94/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Time & time )

Time output streamer.

Generates output such as "396.0ns".

For historical reasons Times are printed with the following format flags (independent of the stream flags):

  • showpos
  • fixed
  • left

The stream width and precision are ignored; Time output always includes ".0".

See also
As() for more flexible output formatting.
Parameters
[in,out]osThe output stream.
[in]timeThe Time to put on the stream.
Returns
The stream.

Definition at line 409 of file time.cc.

References ns3::Time::As(), and ns3::Time::GetResolution().

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◆ operator<<() [95/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const TimeWithUnit & timeU )
Parameters
[in,out]osThe stream.
[in]timeUThe Time with desired unit
Returns
The stream.

Definition at line 416 of file time.cc.

◆ operator<<() [96/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Trailer & trailer )

Stream insertion operator.

Parameters
osthe stream
trailerthe trailer
Returns
a reference to the stream

Definition at line 40 of file trailer.cc.

References ns3::Trailer::Print().

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◆ operator<<() [97/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const UanModesList & ml )

Write UanModesList to stream os.

Parameters
osThe output stream.
mlThe mode list.
Returns
The stream.

Definition at line 250 of file uan-tx-mode.cc.

◆ operator<<() [98/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const UanTxMode & mode )

Writes tx mode entry to stream os.

Parameters
osThe output stream.
modeThe mode.
Returns
The stream.

Definition at line 76 of file uan-tx-mode.cc.

◆ operator<<() [99/138]

template<class T >
std::ostream & ns3::operator<< ( std::ostream & os,
const ValArray< T > & a )

Overloads output stream operator.

Template Parameters
Tthe type of the ValArray for which will be called this function
Parameters
osa reference to the output stream
athe ValArray instance using type T
Returns
a reference to the output stream

Definition at line 710 of file val-array.h.

References ns3::ValArray< T >::GetNumCols(), ns3::ValArray< T >::GetNumPages(), and ns3::ValArray< T >::GetNumRows().

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◆ operator<<() [100/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Vector2D & vector )

Vectors are written as "x:y".

Parameters
[in,out]osThe stream.
[in]vectorThe vector to stream
Returns
The stream.

Definition at line 211 of file vector.cc.

◆ operator<<() [101/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Vector3D & vector )

Vectors are written as "x:y:z".

Parameters
[in,out]osThe stream.
[in]vectorThe vector to stream
Returns
The stream.

Definition at line 125 of file vector.cc.

◆ operator<<() [102/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const Waypoint & waypoint )

Stream insertion operator.

Parameters
osthe stream
waypointthe waypoint
Returns
a reference to the stream

Definition at line 34 of file waypoint.cc.

References ns3::Time::GetSeconds(), ns3::Waypoint::position, and ns3::Waypoint::time.

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◆ operator<<() [103/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiAcknowledgment * acknowledgment )

Stream insertion operator.

Parameters
osthe output stream
acknowledgmentthe acknowledgment method
Returns
a reference to the stream

Definition at line 362 of file wifi-acknowledgment.cc.

References ns3::WifiAcknowledgment::Print().

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◆ operator<<() [104/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiCodeRate & codeRate )
inline

◆ operator<<() [105/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiConstPsduMap & psdus )

Stream insertion operator.

Parameters
osthe stream
psdusthe PSDUs
Returns
a reference to the stream

Definition at line 295 of file wifi-ppdu.cc.

◆ operator<<() [106/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiDirection & direction )
inline

Stream insertion operator.

Parameters
osthe stream
directionthe direction
Returns
a reference to the stream

Definition at line 47 of file wifi-utils.h.

References BOTH_DIRECTIONS, DOWNLINK, NS_FATAL_ERROR, and UPLINK.

◆ operator<<() [107/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiInformationElement & element )

Stream insertion operator.

Parameters
osthe output stream
elementthe Information Element
Returns
a reference to the stream

Definition at line 253 of file wifi-information-element.cc.

References ns3::WifiInformationElement::Print().

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◆ operator<<() [108/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiMode & mode )

Serialize WifiMode to ostream (human-readable).

Parameters
osthe output stream
modethe WifiMode
Returns
std::ostream

Definition at line 40 of file wifi-mode.cc.

References ns3::WifiMode::GetUniqueName().

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◆ operator<<() [109/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiModulationClass & modulation )
inline

Stream insertion operator.

Parameters
osthe stream
modulationthe WifiModulationClass
Returns
a reference to the stream

Definition at line 273 of file wifi-phy-common.h.

References NS_FATAL_ERROR, WIFI_MOD_CLASS_DMG_CTRL, WIFI_MOD_CLASS_DMG_LP_SC, WIFI_MOD_CLASS_DMG_OFDM, WIFI_MOD_CLASS_DMG_SC, WIFI_MOD_CLASS_DSSS, WIFI_MOD_CLASS_EHT, WIFI_MOD_CLASS_ERP_OFDM, WIFI_MOD_CLASS_HE, WIFI_MOD_CLASS_HR_DSSS, WIFI_MOD_CLASS_HT, WIFI_MOD_CLASS_OFDM, and WIFI_MOD_CLASS_VHT.

◆ operator<<() [110/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiMpdu & item )

Stream insertion operator.

Parameters
osthe output stream
itemthe WifiMpdu
Returns
a reference to the stream

Definition at line 382 of file wifi-mpdu.cc.

References ns3::WifiMpdu::Print().

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◆ operator<<() [111/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiPhyOperatingChannel & channel )

Stream insertion operator.

Parameters
osthe stream
channelthe operating channel
Returns
a reference to the stream

Definition at line 940 of file wifi-phy-operating-channel.cc.

◆ operator<<() [112/138]

◆ operator<<() [113/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiPpduField & field )
inline

Stream insertion operator.

Parameters
osthe stream
fieldthe PPDU field
Returns
a reference to the stream

Definition at line 344 of file wifi-phy-common.h.

References NS_FATAL_ERROR, WIFI_PPDU_FIELD_DATA, WIFI_PPDU_FIELD_EHT_SIG, WIFI_PPDU_FIELD_HT_SIG, WIFI_PPDU_FIELD_NON_HT_HEADER, WIFI_PPDU_FIELD_PREAMBLE, WIFI_PPDU_FIELD_SIG_A, WIFI_PPDU_FIELD_SIG_B, WIFI_PPDU_FIELD_TRAINING, and WIFI_PPDU_FIELD_U_SIG.

◆ operator<<() [114/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiPpduType & type )
inline

Stream insertion operator.

Parameters
osthe stream
typethe PPDU type
Returns
a reference to the stream

Definition at line 391 of file wifi-phy-common.h.

References NS_FATAL_ERROR, WIFI_PPDU_TYPE_DL_MU, WIFI_PPDU_TYPE_SU, and WIFI_PPDU_TYPE_UL_MU.

◆ operator<<() [115/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiPreamble & preamble )
inline

◆ operator<<() [116/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiProtection * protection )

Stream insertion operator.

Parameters
osthe output stream
protectionthe protection method
Returns
a reference to the stream

Definition at line 114 of file wifi-protection.cc.

References ns3::WifiProtection::Print().

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◆ operator<<() [117/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiPsdu & psdu )

Stream insertion operator.

Parameters
osthe stream
psduthe PSDU
Returns
a reference to the stream

Definition at line 364 of file wifi-psdu.cc.

References ns3::WifiPsdu::Print().

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◆ operator<<() [118/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiSpectrumBandInfo & band )
inline

Stream insertion operator.

Parameters
osthe stream
bandthe band
Returns
a reference to the stream

Definition at line 91 of file wifi-phy-common.h.

References ns3::WifiSpectrumBandInfo::frequencies, ns3::WifiSpectrumBandInfo::indices, and NS_ASSERT.

◆ operator<<() [119/138]

std::ostream & ns3::operator<< ( std::ostream & os,
const WifiTxParameters * txParams )

Stream insertion operator.

Parameters
osthe output stream
txParamsthe TX parameters
Returns
a reference to the stream

Definition at line 313 of file wifi-tx-parameters.cc.

References ns3::WifiTxParameters::Print().

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◆ operator<<() [120/138]

◆ operator<<() [121/138]

std::ostream & ns3::operator<< ( std::ostream & os,
GlobalRoutingLSA & lsa )

Stream insertion operator.

Parameters
osthe reference to the output stream
lsathe LSA
Returns
the reference to the output stream

Definition at line 474 of file global-router-interface.cc.

References ns3::GlobalRoutingLSA::Print().

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◆ operator<<() [122/138]

std::ostream & ns3::operator<< ( std::ostream & os,
HalfDuplexIdealPhy::State s )

Output stream operator.

Parameters
osoutput stream
sthe state to print
Returns
an output stream

Definition at line 69 of file half-duplex-ideal-phy.cc.

References ns3::HalfDuplexIdealPhy::IDLE, ns3::HalfDuplexIdealPhy::RX, and ns3::HalfDuplexIdealPhy::TX.

◆ operator<<() [123/138]

std::ostream & ns3::operator<< ( std::ostream & os,
LteSpectrumPhy::State s )

Output stream output operator.

Parameters
osoutput stream
sstate
Returns
output stream

Definition at line 142 of file lte-spectrum-phy.cc.

References ns3::LteSpectrumPhy::IDLE, ns3::LteSpectrumPhy::RX_DATA, ns3::LteSpectrumPhy::RX_DL_CTRL, ns3::LteSpectrumPhy::TX_DATA, ns3::LteSpectrumPhy::TX_DL_CTRL, and ns3::LteSpectrumPhy::TX_UL_SRS.

◆ operator<<() [124/138]

std::ostream & ns3::operator<< ( std::ostream & os,
McsGroupType type )
inline

Stream insertion operator.

Parameters
osthe stream
typethe MCS group type
Returns
a reference to the stream

Definition at line 48 of file minstrel-ht-wifi-manager.h.

References WIFI_MINSTREL_GROUP_HE, WIFI_MINSTREL_GROUP_HT, and WIFI_MINSTREL_GROUP_VHT.

◆ operator<<() [125/138]

std::ostream & ns3::operator<< ( std::ostream & os,
RxSignalInfo rxSignalInfo )
Parameters
osoutput stream
rxSignalInforeceived signal info to stringify
Returns
output stream

Definition at line 2339 of file wifi-phy.cc.

References ns3::RxSignalInfo::rssi, and ns3::RxSignalInfo::snr.

◆ operator<<() [126/138]

std::ostream & ns3::operator<< ( std::ostream & os,
TestCase::Duration duration )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]durationThe TestCase::Duration.
Returns
The reference to the output stream.

Definition at line 1148 of file test.cc.

References ns3::TestCase::EXTENSIVE, ns3::TestCase::QUICK, and ns3::TestCase::TAKES_FOREVER.

◆ operator<<() [127/138]

std::ostream & ns3::operator<< ( std::ostream & os,
TestSuite::Type type )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]typeThe TestSuite::Type.
Returns
The reference to the output stream.

Definition at line 1129 of file test.cc.

References ns3::TestSuite::ALL, ns3::TestSuite::EXAMPLE, ns3::TestSuite::PERFORMANCE, ns3::TestSuite::SYSTEM, and ns3::TestSuite::UNIT.

◆ operator<<() [128/138]

std::ostream & ns3::operator<< ( std::ostream & os,
TypeId tid )
related

Insertion operator for TypeId.

Parameters
[in]osthe output stream
[in]tidthe TypeId
Returns
the updated output stream.

Definition at line 1294 of file type-id.cc.

◆ operator<<() [129/138]

std::ostream & ns3::operator<< ( std::ostream & os,
ValueClassTest v )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]vThe ValueClassTest object.
Returns
The reference to the output stream.

Definition at line 84 of file attribute-test-suite.cc.

◆ operator<<() [130/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiChannelListType type )
inline

Stream insertion operator.

Parameters
osthe stream
typethe wifi channel list type
Returns
a reference to the stream

Definition at line 528 of file wifi-phy-common.h.

References NS_FATAL_ERROR, WIFI_CHANLIST_PRIMARY, WIFI_CHANLIST_SECONDARY, WIFI_CHANLIST_SECONDARY40, and WIFI_CHANLIST_SECONDARY80.

◆ operator<<() [131/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiChannelWidthType width )
inline

Stream insertion operator.

Parameters
osthe stream
widththe wifi channel width type
Returns
a reference to the stream

Definition at line 554 of file wifi-phy-common.h.

References CW_10MHZ, CW_160MHZ, CW_20MHZ, CW_2160MHZ, CW_22MHZ, CW_40MHZ, CW_5MHZ, CW_80_PLUS_80MHZ, CW_80MHZ, and MAX.

◆ operator<<() [132/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiIcfDrop reason )
inline

Stream insertion operator.

Parameters
osthe stream
reasonthe reason for dropping the ICF
Returns
a reference to the stream

Definition at line 46 of file eht-frame-exchange-manager.h.

References NOT_ENOUGH_TIME_RX, NOT_ENOUGH_TIME_SLEEP, NOT_ENOUGH_TIME_SWITCH, NOT_ENOUGH_TIME_TX, NS_FATAL_ERROR, and USING_OTHER_LINK.

◆ operator<<() [133/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiPhyBand band )
inline

Stream insertion operator.

Parameters
osthe stream
bandthe band
Returns
a reference to the stream

Definition at line 42 of file wifi-phy-band.h.

References WIFI_PHY_BAND_2_4GHZ, WIFI_PHY_BAND_5GHZ, WIFI_PHY_BAND_60GHZ, and WIFI_PHY_BAND_6GHZ.

◆ operator<<() [134/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiPhyState state )
inline

Stream insertion operator.

Parameters
osthe stream
statethe state
Returns
a reference to the stream

Definition at line 62 of file wifi-phy-state.h.

References CCA_BUSY, IDLE, NS_FATAL_ERROR, OFF, RX, SLEEP, SWITCHING, and TX.

◆ operator<<() [135/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiQueueBlockedReason reason )
inline

Stream insertion operator.

Parameters
osthe stream
reasonthe reason to block container queues
Returns
a reference to the stream

Definition at line 48 of file wifi-mac-queue-scheduler.h.

References NS_ABORT_MSG, POWER_SAVE_MODE, REASONS_COUNT, TID_NOT_MAPPED, USING_OTHER_EMLSR_LINK, WAITING_ADDBA_RESP, and WAITING_EMLSR_TRANSITION_DELAY.

◆ operator<<() [136/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiStandard standard )
inline

Stream insertion operator.

Parameters
osthe stream
standardthe standard
Returns
a reference to the stream

Definition at line 50 of file wifi-standards.h.

References WIFI_STANDARD_80211a, WIFI_STANDARD_80211ac, WIFI_STANDARD_80211ad, WIFI_STANDARD_80211ax, WIFI_STANDARD_80211b, WIFI_STANDARD_80211be, WIFI_STANDARD_80211g, WIFI_STANDARD_80211n, and WIFI_STANDARD_80211p.

◆ operator<<() [137/138]

std::ostream & ns3::operator<< ( std::ostream & os,
WifiTidToLinkMappingNegSupport negsupport )

Stream insertion operator.

Parameters
[in]osThe reference to the output stream.
[in]negsupportThe WifiTidToLinkMappingNegSupport.
Returns
The reference to the output stream.

Definition at line 28 of file eht-configuration.cc.

References ANY_LINK_SET, NOT_SUPPORTED, and SAME_LINK_SET.

◆ operator<<() [138/138]

std::ostream & ns3::operator<< ( std::ostream & out,
ns3::RemoteChannelBundle & bundle )
Parameters
[in,out]outThe stream.
[in]bundleThe bundle to print.
Returns
The stream.

Definition at line 107 of file remote-channel-bundle.cc.

◆ operator<=() [1/3]

bool ns3::operator<= ( const Time & lhs,
const Time & rhs )
inline

Less than or equal operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the first input value is less than or equal to the second input value.

Definition at line 862 of file nstime.h.

◆ operator<=() [2/3]

bool ns3::operator<= ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is less than or equal to b .

Definition at line 236 of file vector.cc.

◆ operator<=() [3/3]

bool ns3::operator<= ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is less than or equal to b .

Definition at line 151 of file vector.cc.

◆ operator==() [1/38]

bool ns3::operator== ( const Address & a,
const Address & b )
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 172 of file address.cc.

◆ operator==() [2/38]

bool ns3::operator== ( const Cid & lhs,
const Cid & rhs )

equality operator

Parameters
lhsleft hand side
rhsright hand side
Returns
true if equal

Definition at line 88 of file cid.cc.

◆ operator==() [3/38]

bool ns3::operator== ( const EpcEnbApplication::EpsFlowId_t & a,
const EpcEnbApplication::EpsFlowId_t & b )
Parameters
afirst application
bsecond application
Returns
true is the applications are "equal"

Definition at line 37 of file epc-enb-application.cc.

◆ operator==() [4/38]

bool ns3::operator== ( const EventId & a,
const EventId & b )
inline
Parameters
[in]aThe first EventId.
[in]bThe second EventId.
Returns
true if the a and b represent the same event.

Definition at line 155 of file event-id.h.

◆ operator==() [5/38]

bool ns3::operator== ( const FcfsPrio & lhs,
const FcfsPrio & rhs )
Parameters
lhsthe left hand side priority
rhsthe right hand side priority
Returns
whether the left hand side priority is equal to the right hand side priority

Definition at line 22 of file fcfs-wifi-queue-scheduler.cc.

References ns3::FcfsPrio::priority, and ns3::FcfsPrio::type.

◆ operator==() [6/38]

bool ns3::operator== ( const FrequencyRange & lhs,
const FrequencyRange & rhs )

Compare two FrequencyRange values.

Parameters
lhsthe FrequencyRange value on the left of operator
rhsthe FrequencyRange value on the right of operator
Returns
true if both minFrequency and maxFrequency of left are equal to minFrequency and maxFrequency of right respectively, false otherwise

Definition at line 1132 of file wifi-spectrum-value-helper.cc.

References ns3::FrequencyRange::maxFrequency, and ns3::FrequencyRange::minFrequency.

◆ operator==() [7/38]

bool ns3::operator== ( const ImsiLcidPair_t & a,
const ImsiLcidPair_t & b )

Equality operator.

Parameters
alhs
brhs
Returns
true if "equal"

Definition at line 74 of file lte-common.cc.

◆ operator==() [8/38]

bool ns3::operator== ( const Ipv4Address & a,
const Ipv4Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are equal.

Definition at line 367 of file ipv4-address.h.

◆ operator==() [9/38]

◆ operator==() [10/38]

bool ns3::operator== ( const Ipv4InterfaceAddress & a,
const Ipv4InterfaceAddress & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 195 of file ipv4-interface-address.h.

◆ operator==() [11/38]

bool ns3::operator== ( const Ipv4Mask & a,
const Ipv4Mask & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are equal.

Definition at line 404 of file ipv4-address.h.

◆ operator==() [12/38]

bool ns3::operator== ( const Ipv4MulticastRoutingTableEntry a,
const Ipv4MulticastRoutingTableEntry b )

Equality operator.

Parameters
alhs
brhs
Returns
true if operands are equal, false otherwise

Definition at line 349 of file ipv4-routing-table-entry.cc.

References ns3::Ipv4MulticastRoutingTableEntry::GetGroup(), ns3::Ipv4MulticastRoutingTableEntry::GetInputInterface(), ns3::Ipv4MulticastRoutingTableEntry::GetOrigin(), and ns3::Ipv4MulticastRoutingTableEntry::GetOutputInterfaces().

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◆ operator==() [13/38]

bool ns3::operator== ( const Ipv4RoutingTableEntry a,
const Ipv4RoutingTableEntry b )

Equality operator.

Parameters
alhs
brhs
Returns
true if operands are equal, false otherwise

Definition at line 231 of file ipv4-routing-table-entry.cc.

References ns3::Ipv4RoutingTableEntry::GetDest(), ns3::Ipv4RoutingTableEntry::GetDestNetworkMask(), ns3::Ipv4RoutingTableEntry::GetGateway(), and ns3::Ipv4RoutingTableEntry::GetInterface().

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◆ operator==() [14/38]

bool ns3::operator== ( const Ipv6Address & a,
const Ipv6Address & b )
inline
Parameters
athe first operand.
bthe first operand.
Returns
true if the operands are equal.

Definition at line 644 of file ipv6-address.h.

◆ operator==() [15/38]

◆ operator==() [16/38]

bool ns3::operator== ( const Ipv6InterfaceAddress & a,
const Ipv6InterfaceAddress & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 239 of file ipv6-interface-address.h.

◆ operator==() [17/38]

bool ns3::operator== ( const Ipv6Prefix & a,
const Ipv6Prefix & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 662 of file ipv6-address.h.

◆ operator==() [18/38]

bool ns3::operator== ( const LteFlowId_t & a,
const LteFlowId_t & b )

Equality operator.

Parameters
alhs
brhs
Returns
true if "equal"

Definition at line 38 of file lte-common.cc.

◆ operator==() [19/38]

bool ns3::operator== ( const LteUeConfig_t & a,
const LteUeConfig_t & b )

Equality operator.

Parameters
alhs
brhs
Returns
true if "equal"

Definition at line 104 of file lte-common.cc.

◆ operator==() [20/38]

bool ns3::operator== ( const Mac16Address & a,
const Mac16Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 227 of file mac16-address.h.

◆ operator==() [21/38]

bool ns3::operator== ( const Mac48Address & a,
const Mac48Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 211 of file mac48-address.h.

◆ operator==() [22/38]

bool ns3::operator== ( const Mac64Address & a,
const Mac64Address & b )
inline
Parameters
athe first operand
bthe first operand
Returns
true if the operands are equal

Definition at line 183 of file mac64-address.h.

◆ operator==() [23/38]

bool ns3::operator== ( const Mac8Address & a,
const Mac8Address & b )

Address comparison, equality.

Parameters
aFirst address to compare.
bSecond address to compare.
Returns
True if a == b.

Definition at line 116 of file mac8-address.cc.

◆ operator==() [24/38]

bool ns3::operator== ( const Scheduler::Event & a,
const Scheduler::Event & b )
inline

Compare (equal) two events by Event.

Parameters
[in]aThe first event.
[in]bThe second event.
Returns
true if a == b

Definition at line 288 of file scheduler.h.

References ns3::Scheduler::Event::key.

◆ operator==() [25/38]

bool ns3::operator== ( const SpectrumModel & lhs,
const SpectrumModel & rhs )

Returns true if the two SpectrumModels are identical

Parameters
lhsleft operand
rhsright operand
Returns
true if the two operands are identical

Definition at line 24 of file spectrum-model.cc.

◆ operator==() [26/38]

bool ns3::operator== ( const SpectrumValue & lhs,
const SpectrumValue & rhs )
Parameters
lhsLeft Hand Side of the operator
rhsRight Hand Side of the operator
Returns
true if lhs and rhs SpectruValues are equal

Definition at line 412 of file spectrum-value.cc.

◆ operator==() [27/38]

bool ns3::operator== ( const TbId_t & a,
const TbId_t & b )

Equality operator.

Parameters
alhs
brhs
Returns
true if rnti and layer are equal

Definition at line 67 of file lte-spectrum-phy.cc.

◆ operator==() [28/38]

bool ns3::operator== ( const TcpHeader & lhs,
const TcpHeader & rhs )
Parameters
lhsleft operand
rhsright operand
Returns
true if the operands are equal

Definition at line 481 of file tcp-header.cc.

◆ operator==() [29/38]

bool ns3::operator== ( const TcpRateLinux::TcpRateConnection & lhs,
const TcpRateLinux::TcpRateConnection & rhs )

Comparison operator.

Parameters
lhsleft operand
rhsright operand
Returns
true if the operands are equal

Definition at line 270 of file tcp-rate-ops.cc.

References ns3::TcpRateOps::TcpRateConnection::m_appLimited, ns3::TcpRateOps::TcpRateConnection::m_delivered, ns3::TcpRateOps::TcpRateConnection::m_deliveredTime, and ns3::TcpRateOps::TcpRateConnection::m_firstSentTime.

◆ operator==() [30/38]

◆ operator==() [31/38]

bool ns3::operator== ( const Time & lhs,
const Time & rhs )
inline

Equality operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the two input values are equal.

Definition at line 839 of file nstime.h.

◆ operator==() [32/38]

bool ns3::operator== ( const UlJob & a,
const UlJob & b )

equality operator

Parameters
afirst ULJob
bsecond ULJob
Returns
true if equal

Definition at line 130 of file ul-job.cc.

◆ operator==() [33/38]

bool ns3::operator== ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
true if a is equal to b .

Definition at line 255 of file vector.cc.

◆ operator==() [34/38]

bool ns3::operator== ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector.
[in]brhs vector.
Returns
true if a is equal to b .

Definition at line 170 of file vector.cc.

◆ operator==() [35/38]

bool ns3::operator== ( const WifiMode & a,
const WifiMode & b )

Check if the two WifiModes are identical.

Parameters
aWifiMode
bWifiMode
Returns
true if the two WifiModes are identical, false otherwise

Definition at line 23 of file wifi-mode.cc.

References ns3::WifiMode::GetUid().

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◆ operator==() [36/38]

bool ns3::operator== ( const WifiPhyTraceStatistics & lhs,
const WifiPhyTraceStatistics & rhs )

Checks if two WifiPhyTraceStatistics objects are equal.

Determines if two WifiPhyTraceStatistics objects are equal by comparing their counts. Equality is based on the values of all relevant statistical counts being identical.

Parameters
lhsThe left-hand side WifiPhyTraceStatistics object in the comparison.
rhsThe right-hand side WifiPhyTraceStatistics object in the comparison.
Returns
true if all counts are equal, false otherwise.

Definition at line 381 of file wifi-phy-rx-trace-helper.cc.

References ns3::WifiPhyTraceStatistics::m_failedMpdus, ns3::WifiPhyTraceStatistics::m_failedPpdus, ns3::WifiPhyTraceStatistics::m_nonOverlappingPpdus, ns3::WifiPhyTraceStatistics::m_overlappingPpdus, ns3::WifiPhyTraceStatistics::m_ppduDropReasons, ns3::WifiPhyTraceStatistics::m_receivedMpdus, and ns3::WifiPhyTraceStatistics::m_receivedPpdus.

◆ operator==() [37/38]

bool ns3::operator== ( const WifiPpduRxRecord & lhs,
const WifiPpduRxRecord & rhs )

Checks if two WifiPpduRxRecord objects are equal.

Compares two WifiPpduRxRecord objects to determine if they are equal. Two objects are considered equal if all their corresponding counts have the same values.

Parameters
lhsThe left-hand side WifiPpduRxRecord object in the comparison.
rhsThe right-hand side WifiPpduRxRecord object in the comparison.
Returns
true if the objects are equal, false otherwise.

Definition at line 340 of file wifi-phy-rx-trace-helper.cc.

References ns3::WifiPpduRxRecord::m_rxTag.

◆ operator==() [38/38]

bool ns3::operator== ( TypeId a,
TypeId b )
inline

Comparison operator.

Parameters
[in]aOne value.
[in]bThe other value.
Returns
The result of the comparison.

Definition at line 646 of file type-id.h.

◆ operator>() [1/5]

bool ns3::operator> ( const Scheduler::Event & a,
const Scheduler::Event & b )
inline

Compare (greater than) two events by Event.

Parameters
[in]aThe first event.
[in]bThe second event.
Returns
true if a > b

Definition at line 327 of file scheduler.h.

References ns3::Scheduler::Event::key.

◆ operator>() [2/5]

bool ns3::operator> ( const Scheduler::EventKey & a,
const Scheduler::EventKey & b )
inline

Compare (greater than) two events by EventKey.

Parameters
[in]aThe first event.
[in]bThe second event.
Returns
true if a > b

Definition at line 275 of file scheduler.h.

References ns3::Scheduler::EventKey::m_ts, and ns3::Scheduler::EventKey::m_uid.

◆ operator>() [3/5]

bool ns3::operator> ( const Time & lhs,
const Time & rhs )
inline

Greater than operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the first input value is greater than the second input value.

Definition at line 899 of file nstime.h.

◆ operator>() [4/5]

bool ns3::operator> ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is greater than b .

Definition at line 243 of file vector.cc.

◆ operator>() [5/5]

bool ns3::operator> ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is greater than b .

Definition at line 158 of file vector.cc.

◆ operator>=() [1/3]

bool ns3::operator>= ( const Time & lhs,
const Time & rhs )
inline

Greater than or equal operator for Time.

Parameters
[in]lhsThe first value
[in]rhsThe second value
Returns
true if the first input value is greater than or equal to the second input value.

Definition at line 875 of file nstime.h.

◆ operator>=() [2/3]

bool ns3::operator>= ( const Vector2D & a,
const Vector2D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is greater than or equal to b .

Definition at line 249 of file vector.cc.

◆ operator>=() [3/3]

bool ns3::operator>= ( const Vector3D & a,
const Vector3D & b )
Parameters
[in]alhs vector
[in]brhs vector
Returns
true if a is greater than or equal to b .

Definition at line 164 of file vector.cc.

◆ operator>>() [1/27]

std::istream & ns3::operator>> ( std::istream & is,
Address & address )
Parameters
isthe stream
addressthe address
Returns
a reference to the stream

Definition at line 257 of file address.cc.

◆ operator>>() [2/27]

std::istream & ns3::operator>> ( std::istream & is,
Angles & a )
Parameters
[in]isThe reference to the input stream.
[out]aThe angle.
Returns
The reference to the input stream.

Definition at line 172 of file angles.cc.

◆ operator>>() [3/27]

std::istream & ns3::operator>> ( std::istream & is,
Box & box )

Stream extraction operator.

Parameters
isthe stream
boxthe box
Returns
a reference to the stream

Definition at line 216 of file box.cc.

References ns3::Box::xMax, ns3::Box::xMin, ns3::Box::yMax, ns3::Box::yMin, ns3::Box::zMax, and ns3::Box::zMin.

◆ operator>>() [4/27]

template<typename NUMERIC_TYPE , typename SIGNED_TYPE >
std::istream & ns3::operator>> ( std::istream & is,
const SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE > & val )

Stream extraction operator.

Parameters
isthe stream
valthe value
Returns
a reference to the stream

Definition at line 405 of file sequence-number.h.

References ns3::SequenceNumber< NUMERIC_TYPE, SIGNED_TYPE >::m_value.

◆ operator>>() [5/27]

std::istream & ns3::operator>> ( std::istream & is,
DataRate & rate )

Stream extraction operator.

Parameters
isthe stream
ratethe data rate
Returns
a reference to the stream

Definition at line 260 of file data-rate.cc.

◆ operator>>() [6/27]

std::istream & ns3::operator>> ( std::istream & is,
Ipv4Address & address )

Stream extraction operator.

Parameters
isthe stream
addressthe address
Returns
a reference to the stream

Definition at line 412 of file ipv4-address.cc.

◆ operator>>() [7/27]

std::istream & ns3::operator>> ( std::istream & is,
Ipv4Mask & mask )

Stream extraction operator.

Parameters
isthe stream
maskthe mask
Returns
a reference to the stream

Definition at line 421 of file ipv4-address.cc.

◆ operator>>() [8/27]

std::istream & ns3::operator>> ( std::istream & is,
Ipv6Address & address )

Stream extraction operator.

Parameters
isthe reference to the input stream
addressthe Ipv6Address
Returns
the reference to the input stream

Definition at line 773 of file ipv6-address.cc.

◆ operator>>() [9/27]

std::istream & ns3::operator>> ( std::istream & is,
Ipv6Prefix & prefix )

Stream extraction operator.

Parameters
isthe reference to the input stream
prefixthe Ipv6Prefix
Returns
the reference to the input stream

Definition at line 1009 of file ipv6-address.cc.

◆ operator>>() [10/27]

std::istream & ns3::operator>> ( std::istream & is,
Mac16Address & address )
Parameters
isthe stream
addressthe address
Returns
a reference to the stream

Definition at line 199 of file mac16-address.cc.

◆ operator>>() [11/27]

std::istream & ns3::operator>> ( std::istream & is,
Mac48Address & address )
Parameters
isthe stream
addressthe address
Returns
a reference to the stream

Definition at line 248 of file mac48-address.cc.

◆ operator>>() [12/27]

std::istream & ns3::operator>> ( std::istream & is,
Mac64Address & address )
Parameters
isthe stream
addressthe address
Returns
a reference to the stream

Definition at line 183 of file mac64-address.cc.

◆ operator>>() [13/27]

std::istream & ns3::operator>> ( std::istream & is,
Mac8Address & address )

Read address from stream is as 8 bit integer.

Parameters
isThe input stream.
addressThe address variable to set.
Returns
The input stream.

Definition at line 135 of file mac8-address.cc.

◆ operator>>() [14/27]

std::istream & ns3::operator>> ( std::istream & is,
ObjectFactory & factory )

The configuration should be in the form "<TypeId-name>[<attribute-name>=<attribute-value>|...]"

Parameters
[in,out]isThe input stream.
[out]factoryThe factory to configure as described by the stream.
Returns
The stream.

Definition at line 116 of file object-factory.cc.

◆ operator>>() [15/27]

std::istream & ns3::operator>> ( std::istream & is,
Priomap & priomap )

Serialize from the given istream to this priomap.

Parameters
is
priomap
Returns
std::istream

Definition at line 37 of file prio-queue-disc.cc.

References NS_FATAL_ERROR.

◆ operator>>() [16/27]

std::istream & ns3::operator>> ( std::istream & is,
QueueSize & size )

Stream extraction operator.

Parameters
isthe stream
sizethe queue size
Returns
a reference to the stream

Definition at line 195 of file queue-size.cc.

◆ operator>>() [17/27]

std::istream & ns3::operator>> ( std::istream & is,
Rectangle & rectangle )

Stream extraction operator.

Parameters
isthe stream
rectanglethe rectangle
Returns
a reference to the stream

Definition at line 200 of file rectangle.cc.

References ns3::Rectangle::xMax, ns3::Rectangle::xMin, ns3::Rectangle::yMax, and ns3::Rectangle::yMin.

◆ operator>>() [18/27]

std::istream & ns3::operator>> ( std::istream & is,
Ssid & ssid )

Serialize from the given istream to this SSID.

Parameters
isthe input stream
ssidthe SSID
Returns
std::istream

Definition at line 105 of file ssid.cc.

◆ operator>>() [19/27]

std::istream & ns3::operator>> ( std::istream & is,
Time & time )

Time input streamer.

Uses the Time(const std::string &) constructor

Parameters
[in,out]isThe input stream.
[out]timeThe Time variable to set from the stream data.
Returns
The stream.

Definition at line 511 of file time.cc.

◆ operator>>() [20/27]

std::istream & ns3::operator>> ( std::istream & is,
TypeId & tid )
related

Extraction operator for TypeId.

Parameters
[in]isthe input stream
[out]tidthe TypeId value
Returns
the updated input stream.

Definition at line 1308 of file type-id.cc.

◆ operator>>() [21/27]

std::istream & ns3::operator>> ( std::istream & is,
UanModesList & ml )

Read UanModesList from stream is.

Parameters
isThe input stream.
mlThe mode list to fill.
Returns
The stream.

Definition at line 263 of file uan-tx-mode.cc.

◆ operator>>() [22/27]

std::istream & ns3::operator>> ( std::istream & is,
UanTxMode & mode )

Reads tx mode entry from stream is.

Parameters
isThe input stream.
modeThe mode.
Returns
The stream.

Definition at line 84 of file uan-tx-mode.cc.

◆ operator>>() [23/27]

std::istream & ns3::operator>> ( std::istream & is,
ValueClassTest & v )

Stream extraction operator.

Parameters
[in]isThe reference to the input stream.
[out]vThe ValueClassTest object.
Returns
The reference to the input stream.

Definition at line 98 of file attribute-test-suite.cc.

◆ operator>>() [24/27]

std::istream & ns3::operator>> ( std::istream & is,
Vector2D & vector )

Vectors are expected to be in the form "x:y".

Parameters
[in,out]isThe stream.
[in]vectorThe vector.
Returns
The stream.

Definition at line 219 of file vector.cc.

◆ operator>>() [25/27]

std::istream & ns3::operator>> ( std::istream & is,
Vector3D & vector )

Vectors are expected to be in the form "x:y:z".

Parameters
[in,out]isThe stream.
[in]vectorThe vector.
Returns
The stream.

Definition at line 133 of file vector.cc.

◆ operator>>() [26/27]

std::istream & ns3::operator>> ( std::istream & is,
Waypoint & waypoint )

Stream extraction operator.

Parameters
isthe stream
waypointthe waypoint
Returns
a reference to the stream

Definition at line 49 of file waypoint.cc.

References ns3::Waypoint::position, and ns3::Waypoint::time.

◆ operator>>() [27/27]

std::istream & ns3::operator>> ( std::istream & is,
WifiMode & mode )

Serialize WifiMode from istream (human-readable).

Parameters
isthe input stream
modethe WifiMode
Returns
std::istream

Definition at line 48 of file wifi-mode.cc.

◆ ParseLengthString()

std::tuple< bool, double, std::string > ns3::ParseLengthString ( const std::string & input)

This function provides a string parsing method that does not rely on istream, which has been found to have different behaviors in different implementations.

The input string can either contain a double (for example, "5.5") or a double and a string with no space between them (for example, "5.5m")

Parameters
inputThe input string
Returns
A three element tuple containing the result of parsing the string. The first tuple element is a boolean indicating whether the parsing succeeded or failed. The second element contains the value of the double that was extracted from the string. The third element was the unit symbol that was extracted from the string. If the input string did not have a unit symbol, the third element will contain an empty string.

Definition at line 693 of file length.cc.

References NS_LOG_ERROR, NS_LOG_FUNCTION, and NS_LOG_LOGIC.

Referenced by operator>>().

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◆ ParseNs2Line()

ParseResult ns3::ParseNs2Line ( const std::string & str)
static

Parses a line of ns2 mobility.

Parameters
strthe string to parse
Returns
The parsed line

Definition at line 483 of file ns2-mobility-helper.cc.

References ns3::ParseResult::dvals, GetNodeIdFromToken(), ns3::ParseResult::has_dval, ns3::ParseResult::has_ival, HasNodeIdNumber(), IsVal(), ns3::ParseResult::ivals, NS_LOG_WARN, ns3::ParseResult::svals, ns3::ParseResult::tokens, and TrimNs2Line().

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ PcapSniffLrWpan()

static void ns3::PcapSniffLrWpan ( Ptr< PcapFileWrapper > file,
Ptr< const Packet > packet )
static

Write a packet in a PCAP file.

Parameters
filethe output file
packetthe packet

Definition at line 323 of file lr-wpan-helper.cc.

References ns3::Simulator::Now().

Referenced by ns3::LrWpanHelper::EnablePcapInternal().

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◆ PcapSniffTxRxEvent()

static void ns3::PcapSniffTxRxEvent ( Ptr< PcapFileWrapper > file,
Ptr< const PacketBurst > burst )
static

print pcap record

Parameters
filepcap file
burstpacket burst to print

Definition at line 626 of file wimax-helper.cc.

References ns3::Simulator::Now().

Referenced by ns3::WimaxHelper::EnablePcapInternal().

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◆ PeekPointer()

template<typename U >
U * ns3::PeekPointer ( const Ptr< U > & p)

The underlying refcount is not incremented prior to returning to the caller so the caller is not responsible for calling Unref himself.

Template Parameters
U[deduced] The actual type of the argument and return pointer.
Parameters
[in]pSmart pointer
Returns
The pointer managed by this smart pointer.

Definition at line 443 of file ptr.h.

Referenced by ns3::QueueDisc::QueueDisc(), ns3::Ipv4L3Protocol::AddInterface(), ns3::Object::AggregateObject(), ns3::Callback< R, UArgs >::Assign(), ns3::HeFrameExchangeManager::BlockAckTimeout(), ns3::internal::PointerChecker< T >::Check(), ns3::NetDeviceQueue::ConnectQueueTraces(), ConstCast(), Copy(), ns3::WifiPhyRxTraceSink::CountStatisticsForRecord(), ns3::ApWifiMac::DeaggregateAmsduAndForward(), ns3::WifiMac::DeaggregateAmsduAndForward(), ns3::HtFrameExchangeManager::DequeuePsdu(), ns3::EnumValue< T >::DeserializeFromString(), ns3::Callback< R, UArgs >::DoCheckType(), ns3::HeFrameExchangeManager::DoCtsAfterMuRtsTimeout(), ns3::FrameExchangeManager::DoCtsTimeout(), StaticInformation::DoGather(), ns3::AttributeIterator::DoIterate(), ns3::Callback< R, UArgs >::DoPeekImpl(), ns3::Config::Resolver::DoResolve(), ns3::tests::PtrTestCase::DoRun(), ReleaseSeqNoAfterCtsTimeoutTest::DoRun(), DynamicCast(), ns3::FrameExchangeManager::FinalizeMacHeader(), ns3::HtFrameExchangeManager::FinalizeMacHeader(), ns3::PointerValue::Get(), ns3::PointerValue::GetAccessor(), ns3::ObjectBase::GetAttribute(), ns3::ObjectBase::GetAttributeFailSafe(), ns3::EhtFrameExchangeManager::GetEmlsrSwitchToListening(), ns3::Object::GetObject(), ns3::Object::GetObject(), ns3::CallbackTraits< Ptr< T > >::GetReference(), ns3::internal::EventMemberImplObjTraits< Ptr< T > >::GetReference(), ns3::Dot11sStack::InstallStack(), ns3::CallbackImpl< R, UArgs >::IsEqual(), ns3::HtFrameExchangeManager::MissedBlockAck(), ns3::HeFrameExchangeManager::NormalAckTimeout(), PreservePacketsInAmpdus::NotifyPsduForwardedDown(), ns3::WifiPhy::NotifyRxBegin(), ns3::WifiPhy::NotifyRxDrop(), ns3::WifiPhy::NotifyRxEnd(), ns3::WifiPhy::NotifyTxBegin(), ns3::WifiPhy::NotifyTxDrop(), ns3::WifiPhy::NotifyTxEnd(), ns3::HtFrameExchangeManager::NotifyTxToEdca(), operator!=(), operator!=(), operator!=(), operator!=(), std::hash< ns3::Ptr< T > >::operator()(), operator<(), operator<(), operator<(), operator<<(), operator<=(), ns3::dot11s::IeBeaconTiming::operator==(), operator==(), operator==(), operator==(), operator==(), operator>(), operator>=(), PacketDequeue(), ns3::EventId::PeekEventImpl(), ns3::WifiPhyRxTraceSink::PhyPpduDrop(), ns3::QosFrameExchangeManager::PreProcessFrame(), PrintAttributesTid(), ns3::FrameExchangeManager::Receive(), ns3::dot11s::PeerManagementProtocol::ReceiveBeacon(), ns3::NullMessageSimulatorImpl::RescheduleNullMessageEvent(), ns3::NullMessageSimulatorImpl::ScheduleNullMessageEvent(), ns3::HeFrameExchangeManager::SendPsduMapWithProtection(), ns3::HtFrameExchangeManager::SendPsduWithProtection(), ns3::Ipv6L3Protocol::SendRealOut(), ns3::CallbackValue::SerializeToString(), ns3::EnumValue< T >::SerializeToString(), ns3::MeshPointDevice::SetRoutingProtocol(), ns3::SimpleOfdmWimaxPhy::StartSendDummyFecBlock(), StaticCast(), BackoffGenerationTest::Transmit(), EmlsrOperationsTestBase::Transmit(), OrigBlockAckWindowStalled::Transmit(), ns3::Object::UnidirectionalAggregateObject(), and ns3::AnimationInterface::WifiPhyTxBeginTrace().

◆ Pow() [1/2]

SpectrumValue ns3::Pow ( const SpectrumValue & lhs,
double rhs )
Parameters
lhsthe base
rhsthe exponent
Returns
each value in base raised to the exponent

Definition at line 535 of file spectrum-value.cc.

◆ Pow() [2/2]

SpectrumValue ns3::Pow ( double lhs,
const SpectrumValue & rhs )
Parameters
lhsthe base
rhsthe exponent
Returns
the value in base raised to each value in the exponent

Definition at line 527 of file spectrum-value.cc.

Referenced by ns3::MicrowaveOvenSpectrumValueHelper::CreatePowerSpectralDensityMwo1(), and ns3::MicrowaveOvenSpectrumValueHelper::CreatePowerSpectralDensityMwo2().

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◆ PrintNodeInfo()

static void ns3::PrintNodeInfo ( std::string & uid,
std::string & loc,
bool dns,
bool bb,
std::vector< std::string >::size_type neighListSize,
std::string & name,
int radius )
inlinestatic

Print node info.

Parameters
uidnode ID
locnode location
dnsis a DNS node ?
bbis a BB node ?
neighListSizesize of neighbor list
namenode name
radiusnode radius

Definition at line 99 of file rocketfuel-topology-reader.cc.

References NS_LOG_INFO.

Referenced by ns3::RocketfuelTopologyReader::GenerateFromMapsFile().

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◆ Prod()

double ns3::Prod ( const SpectrumValue & x)
Parameters
xthe operand
Returns
the product of all the values in x

Definition at line 337 of file spectrum-value.cc.

◆ RadiansToDegrees() [1/2]

std::vector< double > ns3::RadiansToDegrees ( const std::vector< double > & radians)

converts radians to degrees

Parameters
radiansthe angles in radians
Returns
the angles in degrees

Definition at line 52 of file angles.cc.

References RadiansToDegrees().

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◆ RadiansToDegrees() [2/2]

◆ RatioToDb()

◆ ReadFrom() [1/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Address & ad,
uint32_t len )

Read an Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Address to be read
lenthe length of the Address

Definition at line 90 of file address-utils.cc.

References ns3::Address::CopyFrom(), ns3::Address::MAX_SIZE, NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Read().

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◆ ReadFrom() [2/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Ipv4Address & ad )

Read an Ipv4Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Ipv4Address to be read

Definition at line 74 of file address-utils.cc.

References NS_LOG_FUNCTION, ns3::Buffer::Iterator::ReadNtohU32(), and ns3::Ipv4Address::Set().

Referenced by ns3::AlohaNoackMacHeader::Deserialize(), ns3::AmsduSubframeHeader::Deserialize(), ns3::aodv::RerrHeader::Deserialize(), ns3::aodv::RrepHeader::Deserialize(), ns3::aodv::RreqHeader::Deserialize(), ns3::ArpHeader::Deserialize(), ns3::CommonInfoBasicMle::Deserialize(), ns3::CtrlBAckResponseHeader::Deserialize(), ns3::DhcpHeader::Deserialize(), ns3::DlMap::Deserialize(), ns3::dot11s::MeshHeader::Deserialize(), ns3::dsdv::DsdvHeader::Deserialize(), ns3::dsr::DsrOptionAckHeader::Deserialize(), ns3::dsr::DsrOptionRerrHeader::Deserialize(), ns3::dsr::DsrOptionRerrUnreachHeader::Deserialize(), ns3::dsr::DsrOptionRerrUnsupportedHeader::Deserialize(), ns3::dsr::DsrOptionRreqHeader::Deserialize(), ns3::EthernetHeader::Deserialize(), ns3::flame::FlameHeader::Deserialize(), ns3::Ipv6Header::Deserialize(), ns3::lrwpan::CommandPayloadHeader::Deserialize(), ns3::lrwpan::GtsFields::Deserialize(), ns3::lrwpan::LrWpanMacHeader::Deserialize(), ns3::lrwpan::PendingAddrFields::Deserialize(), ns3::OfdmDownlinkFramePrefix::Deserialize(), ns3::RngReq::Deserialize(), ns3::RngRsp::Deserialize(), ns3::WifiMacHeader::Deserialize(), ns3::MgtReassocRequestHeader::DeserializeImpl(), ns3::dot11s::IePerr::DeserializeInformationField(), ns3::dot11s::IePrep::DeserializeInformationField(), ns3::dot11s::IePreq::DeserializeInformationField(), ns3::dot11s::IeRann::DeserializeInformationField(), ns3::MultiLinkElement::PerStaProfileSubelement::DeserializeInformationField(), ns3::ReducedNeighborReport::DeserializeInformationField(), ns3::OfdmDcdChannelEncodings::DoRead(), and BasicMultiLinkElementTest::DoRun().

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◆ ReadFrom() [3/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Ipv6Address & ad )

Read an Ipv6Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Ipv6Address to be read

Definition at line 81 of file address-utils.cc.

References NS_LOG_FUNCTION, ns3::Buffer::Iterator::Read(), and ns3::Ipv6Address::Set().

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◆ ReadFrom() [4/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Mac16Address & ad )

Read a Mac16Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Mac16Address to be read

Definition at line 117 of file address-utils.cc.

References ns3::Mac16Address::CopyFrom(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Read().

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◆ ReadFrom() [5/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Mac48Address & ad )

Read a Mac48Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Mac48Address to be read

Definition at line 108 of file address-utils.cc.

References ns3::Mac48Address::CopyFrom(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Read().

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◆ ReadFrom() [6/6]

void ns3::ReadFrom ( Buffer::Iterator & i,
Mac64Address & ad )

Read a Mac64Address from a Buffer.

Parameters
ia reference to the buffer to read from
ada reference to the Mac64Address to be read

Definition at line 99 of file address-utils.cc.

References ns3::Mac64Address::CopyFrom(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Read().

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◆ ReciprocalDivide() [1/2]

static uint32_t ns3::ReciprocalDivide ( uint32_t A,
uint32_t R )
inlinestatic

Performs a reciprocal divide, similar to the Linux kernel reciprocal_divide function.

Parameters
Anumerator
Rreciprocal of the denominator B
Returns
the value of A/B

Definition at line 119 of file cobalt-queue-disc.cc.

Referenced by ns3::CobaltQueueDisc::ControlLaw(), and ns3::CoDelQueueDisc::ControlLaw().

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◆ ReciprocalDivide() [2/2]

static uint32_t ns3::ReciprocalDivide ( uint32_t A,
uint32_t R )
inlinestatic

Performs a reciprocal divide, similar to the Linux kernel reciprocal_divide function.

Parameters
Anumerator
Rreciprocal of the denominator B
Returns
the value of A/B

Definition at line 40 of file codel-queue-disc.cc.

◆ Rem()

Time ns3::Rem ( const Time & lhs,
const Time & rhs )
inline

Remainder (modulus) from the quotient of two Times.

Rem() and operator% are equivalent:

Rem (ta, tb)  ==  ta % tb;
See also
Div()
Parameters
[in]lhsThe first time value
[in]rhsThe second time value
Returns
The remainder of lhs / rhs.

Definition at line 1115 of file nstime.h.

Referenced by ns3::UanPhyCalcSinrFhFsk::CalcSinrDb(), and TimeSimpleTestCase::DoTimeOperations().

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◆ rocketfuel_maps_regex()

static const std::regex ns3::rocketfuel_maps_regex ( ROCKETFUEL_MAPS_LINE )
static

Build a Regex object for RocketFuel topology maps file type.

Returns
a static regex object for maps file type

Referenced by ns3::RocketfuelTopologyReader::GetFileType(), and ns3::RocketfuelTopologyReader::Read().

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◆ rocketfuel_weights_regex()

static const std::regex ns3::rocketfuel_weights_regex ( ROCKETFUEL_WEIGHTS_LINE )
static

Build a Regex object for RocketFuel topology weights file type.

Returns
a static regex object for weights file type

Referenced by ns3::RocketfuelTopologyReader::GetFileType(), and ns3::RocketfuelTopologyReader::Read().

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◆ save_clicked_attribute()

void ns3::save_clicked_attribute ( GtkButton * button,
gpointer user_data )

This is the action done when the user presses on the save button for the Attributes.

It will save the config to a file.

Parameters
button(unused)
user_data

Definition at line 584 of file display-functions.cc.

References ns3::RawTextConfigSave::Attributes(), and ns3::RawTextConfigSave::SetFilename().

Referenced by ns3::GtkConfigStore::ConfigureAttributes().

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◆ save_clicked_default()

void ns3::save_clicked_default ( GtkButton * button,
gpointer user_data )

This is the action done when the user presses on the save button for the Default attributes.

It will save the config to a file.

Parameters
button(unused)
user_data

Definition at line 514 of file display-functions.cc.

References ns3::RawTextConfigSave::Default(), and ns3::RawTextConfigSave::SetFilename().

Referenced by ns3::GtkConfigStore::ConfigureDefaults().

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◆ SetInitialPosition()

Vector ns3::SetInitialPosition ( Ptr< ConstantVelocityMobilityModel > model,
std::string coord,
double coordVal )
static

Set initial position for a node.

Parameters
modelmobility model
coordcoordinate (x, y, or z)
coordValvalue of the coordinate
Returns
The vector of the position

Definition at line 817 of file ns2-mobility-helper.cc.

References SetOneInitialCoord().

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ SetMaxNss()

void ns3::SetMaxNss ( std::vector< uint8_t > & vec,
uint8_t maxNss,
uint8_t mcsStart,
uint8_t mcsEnd )

set the max Tx/Rx NSS for input MCS index range

Parameters
vecvector of max NSS per MCS
maxNssmax NSS for input MCS range
mcsStartMCS index start
mcsEndMCS index end

Definition at line 73 of file eht-operation.cc.

References NS_ASSERT, WIFI_EHT_MAX_MCS_INDEX, and WIFI_EHT_MAX_NSS_CONFIGURABLE.

Referenced by ns3::EhtOperation::EhtBasicMcsNssSet::Deserialize(), ns3::EhtOperation::SetMaxRxNss(), and ns3::EhtOperation::SetMaxTxNss().

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◆ SetMovement()

DestinationPoint ns3::SetMovement ( Ptr< ConstantVelocityMobilityModel > model,
Vector lastPos,
double at,
double xFinalPosition,
double yFinalPosition,
double speed )
static

Set waypoints and speed for movement.

Parameters
modelmobility model
lastPoslast position
atinitial movement time
xFinalPositionfinal position (X axis)
yFinalPositionfinal position (Y axis)
speedmovement speed
Returns
A descriptor of the movement

Definition at line 757 of file ns2-mobility-helper.cc.

References ns3::DestinationPoint::m_finalPosition, ns3::DestinationPoint::m_speed, ns3::DestinationPoint::m_startPosition, ns3::DestinationPoint::m_stopEvent, ns3::DestinationPoint::m_targetArrivalTime, ns3::DestinationPoint::m_travelStartTime, NS_LOG_DEBUG, ns3::Simulator::Schedule(), Seconds(), and ns3::ConstantVelocityMobilityModel::SetVelocity().

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ SetOneInitialCoord()

Vector ns3::SetOneInitialCoord ( Vector actPos,
std::string & coord,
double value )
static

Add one coord to a vector position.

Parameters
actPosactual position (overwritten)
coordcoordinate (x, y, or z)
valuevalue of the coordinate
Returns
The vector of the position

Definition at line 700 of file ns2-mobility-helper.cc.

References NS2_X_COORD, NS2_Y_COORD, NS2_Z_COORD, and NS_LOG_DEBUG.

Referenced by SetInitialPosition(), and SetSchedPosition().

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◆ SetSchedPosition()

Vector ns3::SetSchedPosition ( Ptr< ConstantVelocityMobilityModel > model,
double at,
std::string coord,
double coordVal )
static

Schedule a set of position for a node.

Parameters
modelmobility model
atinitial movement time
coordcoordinate (x, y, or z)
coordValvalue of the coordinate
Returns
The vector of the position at the given time

Definition at line 831 of file ns2-mobility-helper.cc.

References ns3::Simulator::Schedule(), Seconds(), SetOneInitialCoord(), and ns3::MobilityModel::SetPosition().

Referenced by ns3::Ns2MobilityHelper::ConfigNodesMovements().

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◆ Shuffle()

template<typename RND_ACCESS_ITER >
void ns3::Shuffle ( RND_ACCESS_ITER first,
RND_ACCESS_ITER last,
Ptr< UniformRandomVariable > rv )

Shuffle the elements in the range first to last.

Given that the implementation of std::shuffle is not dictated by the standard CppReference, it is not guaranteed that std::shuffle returns the same permutation of the given range using different compilers/OSes. Therefore, this function provides a specific implementation of the shuffling algorithm reported in "The Art of Computer Programming" of Donald Knuth and on Wikipedia, which basically matches the implementation in libstdc++.

The complexity of the implemented algorithm is linear with the distance between first and last. For containers that do not provide random access iterators (e.g., lists, sets) we can still achieve a linear complexity by copying the elements in a vector and shuffling the elements of the vector.

Template Parameters
RND_ACCESS_ITER[deduced] the iterator type (must be a random access iterator)
Parameters
firstan iterator pointing to the first element in the range to shuffle
lastan iterator pointing to past-the-last element in the range to shuffle
rvpointer to a uniform random variable

Definition at line 48 of file shuffle.h.

Referenced by ns3::test::RandomVariable::ShuffleElementsTest::DoRun(), ns3::Txop::Queue(), and ns3::WifiMac::UnblockUnicastTxOnLinks().

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◆ SplitString()

StringVector ns3::SplitString ( const std::string & str,
const std::string & delim )

Split a string on a delimiter.

The input string is ummodified.

Parameters
[in]strThe string.
[in]delimThe delimiter.
Returns
A vector of the components of str which were separated by delim.

Definition at line 23 of file string.cc.

Referenced by ns3::EnvironmentVariable::Dictionary::Dictionary(), ns3::tests::SplitStringTestCase::Check(), CheckEnvironmentVariables(), ns3::LogComponent::EnvVarCheck(), and ns3::SystemPath::Split().

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◆ StaticCast()

template<typename T1 , typename T2 >
Ptr< T1 > ns3::StaticCast ( const Ptr< T2 > & p)

Cast a Ptr.

Template Parameters
T1[deduced] The desired type to cast to.
T2[deduced] The type of the original Ptr.
Parameters
[in]pThe original Ptr.
Returns
The result of the cast.

Definition at line 587 of file ptr.h.

References PeekPointer().

Referenced by ns3::WifiProtectionManager::AddUserInfoToMuRts(), MultiLinkTxTest::CheckBlockAck(), WifiUseAvailBwTest::CheckResults(), WifiTest::CreateOne(), ns3::FqCobaltQueueDisc::DoEnqueue(), ns3::FqCoDelQueueDisc::DoEnqueue(), ns3::FqPieQueueDisc::DoEnqueue(), ns3::ChannelAccessManager::DoGrantDcfAccess(), AidAssignmentTest::DoRun(), Bug2831TestCase::DoRun(), FqCobaltQueueDiscDeficit::DoRun(), FqCoDelQueueDiscDeficit::DoRun(), FqPieQueueDiscDeficit::DoRun(), WifiPrimaryChannelsTest::DoSendHeTbPpdu(), AidAssignmentTest::DoSetup(), ns3::EhtFrameExchangeManager::DropReceivedIcf(), ns3::EhtFrameExchangeManager::EmlsrSwitchToListening(), ns3::AdhocWifiMac::Enqueue(), ns3::ApWifiMac::Enqueue(), ns3::StaWifiMac::Enqueue(), ns3::FrameExchangeManager::FinalizeMacHeader(), ns3::EhtFrameExchangeManager::ForwardPsduDown(), ns3::WifiNetDevice::GetAddress(), ns3::ApEmlsrManager::GetEhtFem(), ns3::EmlsrManager::GetEhtFem(), ns3::MultiUserScheduler::GetHeFem(), ns3::QosTxop::GetNextMpdu(), ns3::WifiRemoteStationManager::GetStaId(), ns3::WifiMac::GetTxopQueue(), ns3::FrameExchangeManager::NotifyInternalCollision(), ns3::QosFrameExchangeManager::PreProcessFrame(), Experiment::Run(), ns3::HeFrameExchangeManager::SendPsduMap(), ns3::FqCobaltQueueDisc::SetAssociativeHash(), ns3::FqCoDelQueueDisc::SetAssociativeHash(), ns3::FqPieQueueDisc::SetAssociativeHash(), AidAssignmentTest::SetSsid(), ns3::EhtFrameExchangeManager::StartTransmission(), ns3::QosFrameExchangeManager::StartTransmission(), WifiUseAvailBwTest::Transmit(), ns3::WifiDefaultProtectionManager::TryAddMpduToMuPpdu(), and ns3::WifiDefaultProtectionManager::TryUlMuTransmission().

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◆ StringToBuffer()

bool ns3::StringToBuffer ( std::string s,
uint8_t * buffer,
uint32_t * len )

Convert string encoded by the inverse function (TapBufferToString) back into a byte buffer.

Parameters
sThe input string.
bufferThe buffer to initialize with the converted bits.
lenThe length of the data that is valid in the buffer.
Returns
True indicates a successful conversion.

Definition at line 56 of file encode-decode.cc.

Referenced by SendSocket().

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◆ Sum()

double ns3::Sum ( const SpectrumValue & x)
Parameters
xthe operand
Returns
the sum of all the values in x

Definition at line 324 of file spectrum-value.cc.

Referenced by ComputeSnr(), ComputeSnr(), ComputeSnr(), and ns3::LteInterference::StartRx().

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◆ TapBufferToString()

std::string ns3::TapBufferToString ( uint8_t * buffer,
uint32_t len )

Convert a byte buffer to a string containing a hex representation of the buffer.

Make the string pretty by adding a colon (':') between the hex.

Parameters
bufferThe input buffer to be converted.
lenThe length of the input buffer.
Returns
A string containing a hex representation of the data in buffer.

Definition at line 26 of file tap-encode-decode.cc.

Referenced by ns3::TapBridge::CreateTap().

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◆ TapStringToBuffer()

bool ns3::TapStringToBuffer ( std::string s,
uint8_t * buffer,
uint32_t * len )

Convert string encoded by the inverse function (TapBufferToString) back into a byte buffer.

Parameters
sThe input string.
bufferThe buffer to initialize with the converted bits.
lenThe length of the data that is valid in the buffer.
Returns
True indicates a successful conversion.

Definition at line 56 of file tap-encode-decode.cc.

Referenced by SendSocket().

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◆ TidToLinkMappingValidForNegType1()

bool ns3::TidToLinkMappingValidForNegType1 ( const WifiTidLinkMapping & dlLinkMapping,
const WifiTidLinkMapping & ulLinkMapping )

Check if the given TID-to-Link Mappings are valid for a negotiation type of 1.

Specifically, it is checked whether all TIDs are mapped to the same set of links.

Parameters
dlLinkMappingthe given TID-to-Link Mapping for Downlink
ulLinkMappingthe given TID-to-Link Mapping for Uplink
Returns
whether the given TID-to-Link Mappings are valid for a negotiation type of 1

Definition at line 140 of file wifi-utils.cc.

Referenced by MultiLinkSetupTest::DoSetup(), ns3::StaWifiMac::GetTidToLinkMappingElements(), and ns3::ApWifiMac::ReceiveAssocRequest().

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◆ ToString() [1/3]

◆ ToString() [2/3]

static const std::string & ns3::ToString ( LteUePhy::State s)
inlinestatic
Parameters
sThe UE PHY state.
Returns
The string representation of the given state.

Definition at line 125 of file lte-ue-phy.cc.

References g_uePhyStateName.

◆ ToString() [3/3]

static const std::string & ns3::ToString ( UeManager::State s)
static
Parameters
sThe UE manager state.
Returns
The string representation of the given state.

Definition at line 125 of file lte-enb-rrc.cc.

References g_ueManagerStateName.

◆ TrimNs2Line()

std::string ns3::TrimNs2Line ( const std::string & str)
static

Put out blank spaces at the start and end of a line.

Parameters
strinput line
Returns
the line trimmed

Definition at line 579 of file ns2-mobility-helper.cc.

Referenced by ParseNs2Line().

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◆ UlRxPduCallback()

void ns3::UlRxPduCallback ( Ptr< BoundCallbackArgument > arg,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize,
uint64_t delay )

Callback function for UL RX statistics for both RLC and PDCP.

Parameters
arg
path
rnti
lcid
packetSize
delay

Definition at line 115 of file radio-bearer-stats-connector.cc.

References NS_LOG_FUNCTION, and packetSize.

Referenced by ns3::RadioBearerStatsConnector::ConnectTracesDrbEnb(), ns3::RadioBearerStatsConnector::ConnectTracesSrb0(), and ns3::RadioBearerStatsConnector::ConnectTracesSrb1().

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◆ UlTxPduCallback()

void ns3::UlTxPduCallback ( Ptr< BoundCallbackArgument > arg,
std::string path,
uint16_t rnti,
uint8_t lcid,
uint32_t packetSize )

Callback function for UL TX statistics for both RLC and PDCP.

Parameters
arg
path
rnti
lcid
packetSize

Definition at line 95 of file radio-bearer-stats-connector.cc.

References NS_LOG_FUNCTION, and packetSize.

Referenced by ns3::RadioBearerStatsConnector::ConnectTracesDrbUe(), ns3::RadioBearerStatsConnector::ConnectTracesSrb0(), and ns3::RadioBearerStatsConnector::ConnectTracesSrb1().

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◆ WrapTo180()

double ns3::WrapTo180 ( double a)

Wrap angle in [-180, 180)

Parameters
athe angle in degrees
Returns
the wrapped angle in degrees

Definition at line 85 of file angles.cc.

Referenced by AnglesTestSuite::AnglesTestSuite(), and ns3::GeocentricConstantPositionMobilityModel::DoSetGeographicPosition().

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◆ WrapTo2Pi()

double ns3::WrapTo2Pi ( double a)

Wrap angle in [0, 2*M_PI)

Parameters
athe angle in radians
Returns
the wrapped angle in radians

Definition at line 106 of file angles.cc.

Referenced by AnglesTestSuite::AnglesTestSuite(), and ns3::ThreeGppChannelModel::WrapAngles().

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◆ WrapTo360()

double ns3::WrapTo360 ( double a)

Wrap angle in [0, 360)

Parameters
athe angle in degrees
Returns
the wrapped angle in degrees

Definition at line 64 of file angles.cc.

Referenced by AnglesTestSuite::AnglesTestSuite(), and GeoToAndFromTopocentricTestCase::TestReferencePoint().

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◆ WrapToPi()

double ns3::WrapToPi ( double a)

Wrap angle in [-M_PI, M_PI)

Parameters
athe angle in radians
Returns
the wrapped angle in radians

Definition at line 127 of file angles.cc.

Referenced by AnglesTestSuite::AnglesTestSuite(), and ns3::Angles::NormalizeAngles().

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◆ WriteTo() [1/6]

void ns3::WriteTo ( Buffer::Iterator & i,
const Address & ad )

Write an Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Address

Definition at line 37 of file address-utils.cc.

References ns3::Address::CopyTo(), ns3::Address::GetLength(), ns3::Address::MAX_SIZE, NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Write().

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◆ WriteTo() [2/6]

void ns3::WriteTo ( Buffer::Iterator & i,
Ipv4Address ad )

Write an Ipv4Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Ipv4Address

Definition at line 21 of file address-utils.cc.

References ns3::Ipv4Address::Get(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::WriteHtonU32().

Referenced by ns3::TcpHeader::CalculateHeaderChecksum(), ns3::UdpHeader::CalculateHeaderChecksum(), ns3::OfdmDcdChannelEncodings::DoWrite(), ns3::AlohaNoackMacHeader::Serialize(), ns3::AmsduSubframeHeader::Serialize(), ns3::aodv::RerrHeader::Serialize(), ns3::aodv::RrepHeader::Serialize(), ns3::aodv::RreqHeader::Serialize(), ns3::ArpHeader::Serialize(), ns3::CommonInfoBasicMle::Serialize(), ns3::CtrlBAckResponseHeader::Serialize(), ns3::DhcpHeader::Serialize(), ns3::DlMap::Serialize(), ns3::dot11s::MeshHeader::Serialize(), ns3::dsdv::DsdvHeader::Serialize(), ns3::dsr::DsrOptionAckHeader::Serialize(), ns3::dsr::DsrOptionRerrHeader::Serialize(), ns3::dsr::DsrOptionRerrUnreachHeader::Serialize(), ns3::dsr::DsrOptionRerrUnsupportedHeader::Serialize(), ns3::dsr::DsrOptionRreqHeader::Serialize(), ns3::EthernetHeader::Serialize(), ns3::flame::FlameHeader::Serialize(), ns3::Ipv6Header::Serialize(), ns3::lrwpan::CommandPayloadHeader::Serialize(), ns3::lrwpan::GtsFields::Serialize(), ns3::lrwpan::LrWpanMacHeader::Serialize(), ns3::lrwpan::PendingAddrFields::Serialize(), ns3::OfdmDownlinkFramePrefix::Serialize(), ns3::RngReq::Serialize(), ns3::RngRsp::Serialize(), ns3::WifiMacHeader::Serialize(), ns3::MgtReassocRequestHeader::SerializeImpl(), ns3::dot11s::IePerr::SerializeInformationField(), ns3::dot11s::IePrep::SerializeInformationField(), ns3::dot11s::IePreq::SerializeInformationField(), ns3::dot11s::IeRann::SerializeInformationField(), ns3::MultiLinkElement::PerStaProfileSubelement::SerializeInformationField(), and ns3::ReducedNeighborReport::SerializeInformationField().

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◆ WriteTo() [3/6]

void ns3::WriteTo ( Buffer::Iterator & i,
Ipv6Address ad )

Write an Ipv4Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Ipv6Address

Definition at line 28 of file address-utils.cc.

References ns3::Ipv6Address::GetBytes(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Write().

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◆ WriteTo() [4/6]

void ns3::WriteTo ( Buffer::Iterator & i,
Mac16Address ad )

Write an Mac16Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Mac16Address

Definition at line 64 of file address-utils.cc.

References ns3::Mac16Address::CopyTo(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Write().

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◆ WriteTo() [5/6]

void ns3::WriteTo ( Buffer::Iterator & i,
Mac48Address ad )

Write an Mac48Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Mac48Address

Definition at line 55 of file address-utils.cc.

References ns3::Mac48Address::CopyTo(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Write().

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◆ WriteTo() [6/6]

void ns3::WriteTo ( Buffer::Iterator & i,
Mac64Address ad )

Write an Mac64Address to a Buffer.

Parameters
ia reference to the buffer to write to
adthe Mac64Address

Definition at line 46 of file address-utils.cc.

References ns3::Mac64Address::CopyTo(), NS_LOG_FUNCTION, and ns3::Buffer::Iterator::Write().

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◆ WToDbm()

dBm_u ns3::WToDbm ( Watt_u val)

Convert from Watts to dBm.

Parameters
valthe value in Watts
Returns
the equivalent dBm for the given Watts

Definition at line 37 of file wifi-utils.cc.

References NS_ASSERT.

Referenced by ns3::SimpleFrameCaptureModel::CaptureNewFrame(), ns3::PhyEntity::EndPreambleDetectionPeriod(), ns3::OfdmPhy::GetCcaThreshold(), ns3::PhyEntity::GetReceptionStatus(), TestInterBssConstantObssPdAlgo::NotifyPhyTxBegin(), ns3::HePhy::ProcessSigA(), SpectrumWifiPhyFilterTest::RxCallback(), TestMultipleCtsResponsesFromMuRts::RxCtsSuccess(), ns3::PhyEntity::StartPreambleDetectionPeriod(), ns3::SpectrumWifiPhy::StartRx(), and ns3::PhyEntity::Transmit().

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Variable Documentation

◆ ALLOC_OVER_PROVISION

uint32_t ns3::ALLOC_OVER_PROVISION = 100
constexpr

Additional bytes to over-provision.

Definition at line 152 of file buffer.cc.

Referenced by ns3::Buffer::Allocate().

◆ AwgnErrorTableBcc1458

const SnrPerTable ns3::AwgnErrorTableBcc1458

AWGN error table for BCC with reference size of 1458 bytes.

Definition at line 209 of file error-rate-tables.cc.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ AwgnErrorTableBcc32

const SnrPerTable ns3::AwgnErrorTableBcc32

AWGN error table for BCC with reference size of 32 bytes.

Definition at line 20 of file error-rate-tables.cc.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ AwgnErrorTableLdpc1458

const SnrPerTable ns3::AwgnErrorTableLdpc1458

AWGN error table for LDPC with reference size of 1458 bytes.

Definition at line 357 of file error-rate-tables.cc.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ bEcrTable

const double ns3::bEcrTable[9][38]
static

BECR table.

Definition at line 724 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::MappingMiBler().

◆ BIT_63_TO_26_MASK

uint64_t ns3::BIT_63_TO_26_MASK = 0xfffffffffc000000
staticconstexpr

Bitmask with all bits from 63 to 26 set to 1, all the others set to 0.

Definition at line 18 of file tid-to-link-mapping-element.cc.

Referenced by ns3::TidToLinkMapping::GetMappingSwitchTime().

◆ BlerCurvesEcrMap

const double ns3::BlerCurvesEcrMap[38]
static
Initial value:
= {
0.01, 0.026, 0.04,
0.08, 0.1, 0.11, 0.15, 0.19, 0.24, 0.3, 0.37, 0.44, 0.51,
0.075, 0.1, 0.15,
0.3, 0.33, 0.37, 0.42, 0.48, 0.54, 0.6,
0.1075, 0.143, 0.215,
0.43, 0.45, 0.5, 0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.89, 0.92,
}

global table of the effective code rates (ECR)s that have BLER performance curves

Definition at line 39 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats(), and ns3::LteMiErrorModel::MappingMiBler().

◆ BufferSizeLevelBsrTable

const uint32_t ns3::BufferSizeLevelBsrTable[64]
static
Initial value:
= {
0, 10, 12, 14, 17, 19, 22, 26, 31, 36, 42, 49, 57,
67, 78, 91, 107, 125, 146, 171, 200, 234, 274, 321, 376, 440,
515, 603, 706, 826, 967, 1132, 1326, 1552, 1817, 2127, 2490, 2915, 3413,
3995, 4677, 5476, 6411, 7505, 8787, 10287, 12043, 14099, 16507, 19325, 22624, 26487,
31009, 36304, 42502, 49759, 58255, 68201, 79846, 93749, 109439, 128125, 150000, 150000,
}

Buffer size level BSR table.

Definition at line 156 of file lte-common.cc.

Referenced by ns3::BufferSizeLevelBsr::BsrId2BufferSize(), and ns3::BufferSizeLevelBsr::BufferSize2BsrId().

◆ CACHE_INITIAL_VALUE

const double ns3::CACHE_INITIAL_VALUE = -100
static

To avoid using the cache before a valid value has been cached.

Definition at line 41 of file ideal-wifi-manager.cc.

Referenced by ns3::IdealWifiManager::DoGetDataTxVector(), and ns3::IdealWifiManager::Reset().

◆ CanBeInPerStaProfileV

template<class T >
bool ns3::CanBeInPerStaProfileV = CanBeInPerStaProfile<T>::value
inlineconstexpr

Inspect a type to deduce whether it is an Information Element that can be included in a Per-STA Profile subelement of a Multi-Link Element.

Template Parameters
T[explicit] The type to inspect.

Definition at line 205 of file wifi-mgt-header.h.

Referenced by ns3::internal::DoCopyIeFromContainingFrame(), ns3::internal::DoCopyIeFromContainingFrame(), ns3::internal::MustBeListedInNonInheritance(), ns3::internal::MustBeListedInNonInheritance(), ns3::internal::MustBeSerializedInPerStaProfile(), and ns3::internal::MustBeSerializedInPerStaProfile().

◆ cbMiSizeTable

const uint16_t ns3::cbMiSizeTable[9] = {40, 104, 160, 256, 512, 1024, 2560, 4032, 6144}
static

MI size table.

Definition at line 117 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::MappingMiBler().

◆ cbSizeTable

const uint16_t ns3::cbSizeTable[188]
static
Initial value:
= {
40, 48, 56, 64, 72, 80, 88, 96, 104, 112, 120, 128, 136, 144, 152, 160,
168, 176, 184, 192, 200, 208, 216, 224, 232, 240, 248, 256, 264, 272, 280, 288,
296, 304, 312, 320, 328, 336, 344, 352, 360, 368, 376, 384, 392, 400, 408, 416,
424, 432, 440, 448, 456, 464, 472, 480, 488, 496, 504, 512, 528, 544, 560, 576,
592, 608, 624, 640, 656, 672, 688, 704, 720, 736, 752, 768, 784, 800, 816, 832,
848, 864, 880, 896, 912, 928, 944, 960, 976, 992, 1008, 1024, 1056, 1088, 1120, 1152,
1184, 1216, 1248, 1280, 1312, 1344, 1376, 1408, 1440, 1472, 1504, 1536, 1568, 1600, 1632, 1664,
1696, 1728, 1760, 1792, 1824, 1856, 1888, 1920, 1952, 1984, 2016, 2048, 2112, 2176, 2240, 2304,
2368, 2432, 2496, 2560, 2624, 2688, 2752, 2816, 2880, 2944, 3008, 3072, 3136, 3200, 3264, 3328,
3392, 3456, 3520, 3584, 3648, 3712, 3776, 3840, 3904, 3968, 4032, 4096, 4160, 4224, 4288, 4352,
4416, 4480, 4544, 4608, 4672, 4736, 4800, 4864, 4928, 4992, 5056, 5120, 5184, 5248, 5312, 5376,
5440, 5504, 5568, 5632, 5696, 5760, 5824, 5888, 5952, 6016, 6080, 6144,
}

as K column of table 5.1.3-3 of TS 36,212

Definition at line 101 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats().

◆ cEcrTable

const double ns3::cEcrTable[9][38]
static

CECR table.

Definition at line 809 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::MappingMiBler().

◆ channelTypeToScalingFactor

const std::map<WifiChannelListType, dBm_u> ns3::channelTypeToScalingFactor
Initial value:
{
{WIFI_CHANLIST_SECONDARY40, 3.0},
}
@ WIFI_CHANLIST_PRIMARY
@ WIFI_CHANLIST_SECONDARY
@ WIFI_CHANLIST_SECONDARY80

map a given channel list type to the corresponding scaling factor

Definition at line 73 of file vht-phy.cc.

Referenced by ns3::VhtPhy::GetCcaThreshold().

◆ CODEL_SHIFT

const int ns3::CODEL_SHIFT = 10
static

Number of bits discarded from the time representation.

The time is assumed to be in nanoseconds.

Definition at line 38 of file codel-queue-disc.h.

Referenced by CoDelGetTime(), and ns3::CoDelQueueDisc::Time2CoDel().

◆ CqaType0AllocationRbg

const int ns3::CqaType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

CGA Type 0 Allocation.

Definition at line 38 of file cqa-ff-mac-scheduler.cc.

Referenced by ns3::CqaFfMacScheduler::GetRbgSize().

◆ crc32table

uint32_t ns3::crc32table[256]
static

Table of CRC-32 values.

Definition at line 24 of file crc32.cc.

Referenced by CRC32Calculate().

◆ crc8table

uint8_t ns3::crc8table[256]
static
Initial value:
= {
0x00, 0x07, 0x0E, 0x09, 0x1C, 0x1B, 0x12, 0x15, 0x38, 0x3F, 0x36, 0x31, 0x24, 0x23, 0x2A, 0x2D,
0x70, 0x77, 0x7E, 0x79, 0x6C, 0x6B, 0x62, 0x65, 0x48, 0x4F, 0x46, 0x41, 0x54, 0x53, 0x5A, 0x5D,
0xE0, 0xE7, 0xEE, 0xE9, 0xFC, 0xFB, 0xF2, 0xF5, 0xD8, 0xDF, 0xD6, 0xD1, 0xC4, 0xC3, 0xCA, 0xCD,
0x90, 0x97, 0x9E, 0x99, 0x8C, 0x8B, 0x82, 0x85, 0xA8, 0xAF, 0xA6, 0xA1, 0xB4, 0xB3, 0xBA, 0xBD,
0xC7, 0xC0, 0xC9, 0xCE, 0xDB, 0xDC, 0xD5, 0xD2, 0xFF, 0xF8, 0xF1, 0xF6, 0xE3, 0xE4, 0xED, 0xEA,
0xB7, 0xB0, 0xB9, 0xBE, 0xAB, 0xAC, 0xA5, 0xA2, 0x8F, 0x88, 0x81, 0x86, 0x93, 0x94, 0x9D, 0x9A,
0x27, 0x20, 0x29, 0x2E, 0x3B, 0x3C, 0x35, 0x32, 0x1F, 0x18, 0x11, 0x16, 0x03, 0x04, 0x0D, 0x0A,
0x57, 0x50, 0x59, 0x5E, 0x4B, 0x4C, 0x45, 0x42, 0x6F, 0x68, 0x61, 0x66, 0x73, 0x74, 0x7D, 0x7A,
0x89, 0x8E, 0x87, 0x80, 0x95, 0x92, 0x9B, 0x9C, 0xB1, 0xB6, 0xBF, 0xB8, 0xAD, 0xAA, 0xA3, 0xA4,
0xF9, 0xFE, 0xF7, 0xF0, 0xE5, 0xE2, 0xEB, 0xEC, 0xC1, 0xC6, 0xCF, 0xC8, 0xDD, 0xDA, 0xD3, 0xD4,
0x69, 0x6E, 0x67, 0x60, 0x75, 0x72, 0x7B, 0x7C, 0x51, 0x56, 0x5F, 0x58, 0x4D, 0x4A, 0x43, 0x44,
0x19, 0x1E, 0x17, 0x10, 0x05, 0x02, 0x0B, 0x0C, 0x21, 0x26, 0x2F, 0x28, 0x3D, 0x3A, 0x33, 0x34,
0x4E, 0x49, 0x40, 0x47, 0x52, 0x55, 0x5C, 0x5B, 0x76, 0x71, 0x78, 0x7F, 0x6A, 0x6D, 0x64, 0x63,
0x3E, 0x39, 0x30, 0x37, 0x22, 0x25, 0x2C, 0x2B, 0x06, 0x01, 0x08, 0x0F, 0x1A, 0x1D, 0x14, 0x13,
0xAE, 0xA9, 0xA0, 0xA7, 0xB2, 0xB5, 0xBC, 0xBB, 0x96, 0x91, 0x98, 0x9F, 0x8A, 0x8D, 0x84, 0x83,
0xDE, 0xD9, 0xD0, 0xD7, 0xC2, 0xC5, 0xCC, 0xCB, 0xE6, 0xE1, 0xE8, 0xEF, 0xFA, 0xFD, 0xF4, 0xF3,
}

crc8 table

Definition at line 20 of file crc8.cc.

Referenced by CRC8Calculate().

◆ DEFAULT_MSD_DURATION_USEC

uint16_t ns3::DEFAULT_MSD_DURATION_USEC = 5484 / 32 * 32
staticconstexpr

default MediumSyncDelay timer duration (max PPDU TX time rounded to a multiple of 32 us)

Definition at line 25 of file eht-configuration.h.

Referenced by ns3::EhtConfiguration::GetTypeId().

◆ DEFAULT_MSD_MAX_N_TXOPS

uint8_t ns3::DEFAULT_MSD_MAX_N_TXOPS = 1
staticconstexpr

default MediumSyncDelay max number of TXOP attempts

Definition at line 31 of file eht-configuration.h.

Referenced by ns3::EhtConfiguration::GetTypeId().

◆ DEFAULT_MSD_OFDM_ED_THRESH

int8_t ns3::DEFAULT_MSD_OFDM_ED_THRESH = -72
staticconstexpr

default MediumSyncDelay timer OFDM ED threshold

Definition at line 28 of file eht-configuration.h.

Referenced by ns3::EhtConfiguration::GetTypeId().

◆ DEFAULT_WIFI_TID_LINK_MAP_DIR

auto ns3::DEFAULT_WIFI_TID_LINK_MAP_DIR {WifiDirection::BOTH_DIRECTIONS}
constexpr

default value for the Direction subfield of the TID-To-Link Control field

Definition at line 26 of file tid-to-link-mapping-element.h.

◆ DEFAULT_WIFI_TID_LINK_MAPPING

auto ns3::DEFAULT_WIFI_TID_LINK_MAPPING {true}
constexpr

whether to enforce the default link mapping

Definition at line 24 of file tid-to-link-mapping-element.h.

◆ DEG2RAD

double ns3::DEG2RAD = M_PI / 180.0
staticconstexpr

Conversion factor: degrees to radians.

Definition at line 37 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GenerateChannelParameters().

◆ DEG_TO_RAD

const double ns3::DEG_TO_RAD = M_PI / 180.0

Degrees to Radians conversion constant.

Definition at line 23 of file angles.cc.

Referenced by DegreesToRadians().

◆ DL_CTRL_DELAY_FROM_SUBFRAME_START

const Time ns3::DL_CTRL_DELAY_FROM_SUBFRAME_START = NanoSeconds(214286)
static

Delay from the start of a DL subframe to transmission of the data portion.

Equals to "TTI length * (3/14)". Control portion is fixed to 3 symbols out of the available 14 symbols.

Definition at line 52 of file lte-enb-phy.cc.

Referenced by ns3::LteEnbPhy::StartSubFrame().

◆ DL_CTRL_DURATION

const Time ns3::DL_CTRL_DURATION = NanoSeconds(214286 - 1)
static

duration of the control portion of a subframe = 0.001 / 14 * 3 (ctrl fixed to 3 symbols) -1ns as margin to avoid overlapping simulator events

Definition at line 41 of file lte-spectrum-phy.cc.

Referenced by ns3::LteSpectrumPhy::StartTxDlCtrlFrame().

◆ DL_DATA_DURATION

const Time ns3::DL_DATA_DURATION = NanoSeconds(785714 - 1)
static

Duration of the data portion of a DL subframe.

Equals to "TTI length * (11/14) - margin". Data portion is fixed to 11 symbols out of the available 14 symbols. 1 nanosecond margin is added to avoid overlapping simulator events.

Definition at line 45 of file lte-enb-phy.cc.

Referenced by ns3::LteEnbPhy::SendDataChannels().

◆ EffectiveCodingRate

const double ns3::EffectiveCodingRate[29]
static
Initial value:
= {
0.08, 0.1, 0.11, 0.15, 0.19, 0.24, 0.3, 0.37, 0.44, 0.51, 0.3, 0.33, 0.37, 0.42, 0.48,
0.54, 0.6, 0.43, 0.45, 0.5, 0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.89, 0.92,
}

Effective coding rate.

Definition at line 44 of file lte-spectrum-phy.cc.

Referenced by ns3::LteSpectrumPhy::EndRxData().

◆ EMLSR_RX_PHY_START_DELAY

const Time ns3::EMLSR_RX_PHY_START_DELAY = MicroSeconds(20)

aRxPHYStartDelay value to use when waiting for a new frame in the context of EMLSR operations (Sec.

35.3.17 of 802.11be D3.1)

Definition at line 33 of file eht-frame-exchange-manager.cc.

Referenced by ns3::AdvancedApEmlsrManager::NotifyPsduRxError(), ns3::EhtFrameExchangeManager::UpdateTxopEndOnRxEnd(), and ns3::EhtFrameExchangeManager::UpdateTxopEndOnTxStart().

◆ ERROR_TABLE_BCC_LARGE_FRAME_SIZE

const uint16_t ns3::ERROR_TABLE_BCC_LARGE_FRAME_SIZE
Initial value:
=
1458

reference size (bytes) of large frames for BCC

Definition at line 27 of file error-rate-tables.h.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ ERROR_TABLE_BCC_MAX_NUM_MCS

const uint8_t ns3::ERROR_TABLE_BCC_MAX_NUM_MCS = 10

maximum number of MCSs for BCC

Definition at line 30 of file error-rate-tables.h.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate(), and TableBasedErrorRateTestCase::DoRun().

◆ ERROR_TABLE_BCC_SMALL_FRAME_SIZE

const uint16_t ns3::ERROR_TABLE_BCC_SMALL_FRAME_SIZE
Initial value:
=
32

reference size (bytes) of small frames for BCC

Definition at line 25 of file error-rate-tables.h.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ ERROR_TABLE_LDPC_FRAME_SIZE

const uint16_t ns3::ERROR_TABLE_LDPC_FRAME_SIZE = 1458

reference size (bytes) for LDPC

Definition at line 29 of file error-rate-tables.h.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ ERROR_TABLE_LDPC_MAX_NUM_MCS

const uint8_t ns3::ERROR_TABLE_LDPC_MAX_NUM_MCS = 12

maximum number of MCSs for LDPC

Definition at line 31 of file error-rate-tables.h.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ europeArrayLength

const int ns3::europeArrayLength = 70

◆ europeEndFrequencies

const double ns3::europeEndFrequencies[70]
Initial value:
= {
0, 0, 0, 0, 0, 181e6, 188e6, 195e6, 202e6, 209e6, 216e6, 223e6,
230e6, 0, 0, 0, 0, 0, 0, 0, 0, 478e6, 486e6, 494e6,
502e6, 510e6, 518e6, 526e6, 534e6, 542e6, 550e6, 558e6, 566e6, 574e6, 582e6, 590e6,
598e6, 606e6, 614e6, 622e6, 630e6, 638e6, 646e6, 654e6, 662e6, 670e6, 678e6, 686e6,
694e6, 702e6, 710e6, 718e6, 726e6, 734e6, 742e6, 750e6, 758e6, 766e6, 774e6, 782e6,
790e6, 798e6, 806e6, 814e6, 822e6, 830e6, 838e6, 846e6, 854e6, 862e6,
}

EUROPE end frequencies.

Definition at line 63 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ europeStartFrequencies

const double ns3::europeStartFrequencies[70]
Initial value:
= {
0, 0, 0, 0, 0, 174e6, 181e6, 188e6, 195e6, 202e6, 209e6, 216e6,
223e6, 0, 0, 0, 0, 0, 0, 0, 0, 470e6, 478e6, 486e6,
494e6, 502e6, 510e6, 518e6, 526e6, 534e6, 542e6, 550e6, 558e6, 566e6, 574e6, 582e6,
590e6, 598e6, 606e6, 614e6, 622e6, 630e6, 638e6, 646e6, 654e6, 662e6, 670e6, 678e6,
686e6, 694e6, 702e6, 710e6, 718e6, 726e6, 734e6, 742e6, 750e6, 758e6, 766e6, 774e6,
782e6, 790e6, 798e6, 806e6, 814e6, 822e6, 830e6, 838e6, 846e6, 854e6,
}

EUROPE start frequencies.

Definition at line 54 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::CreateRegionalTvTransmitters(), ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ FdBetType0AllocationRbg

const int ns3::FdBetType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

FdBetType0AllocationRbg array.

Definition at line 30 of file fdbet-ff-mac-scheduler.cc.

Referenced by ns3::FdBetFfMacScheduler::GetRbgSize().

◆ FdMtType0AllocationRbg

const int ns3::FdMtType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

FdMtType0AllocationRbg size array.

Definition at line 30 of file fdmt-ff-mac-scheduler.cc.

Referenced by ns3::FdMtFfMacScheduler::GetRbgSize().

◆ FdTbfqType0AllocationRbg

const int ns3::FdTbfqType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

FdTbfqType0AllocationRbg value array.

Definition at line 31 of file fdtbfq-ff-mac-scheduler.cc.

Referenced by ns3::FdTbfqFfMacScheduler::GetRbgSize().

◆ g_eutraChannelNumbers

const EutraChannelNumbers ns3::g_eutraChannelNumbers[]
static
Initial value:
{
{1, 2110, 0, 0, 599, 1920, 18000, 18000, 18599},
{2, 1930, 600, 600, 1199, 1850, 18600, 18600, 19199},
{3, 1805, 1200, 1200, 1949, 1710, 19200, 19200, 19949},
{4, 2110, 1950, 1950, 2399, 1710, 19950, 19950, 20399},
{5, 869, 2400, 2400, 2649, 824, 20400, 20400, 20649},
{6, 875, 2650, 2650, 2749, 830, 20650, 20650, 20749},
{7, 2620, 2750, 2750, 3449, 2500, 20750, 20750, 21449},
{8, 925, 3450, 3450, 3799, 880, 21450, 21450, 21799},
{9, 1844.9, 3800, 3800, 4149, 1749.9, 21800, 21800, 22149},
{10, 2110, 4150, 4150, 4749, 1710, 22150, 22150, 22749},
{11, 1475.9, 4750, 4750, 4949, 1427.9, 22750, 22750, 22949},
{12, 728, 5000, 5000, 5179, 698, 23000, 23000, 23179},
{13, 746, 5180, 5180, 5279, 777, 23180, 23180, 23279},
{14, 758, 5280, 5280, 5379, 788, 23280, 23280, 23379},
{17, 734, 5730, 5730, 5849, 704, 23730, 23730, 23849},
{18, 860, 5850, 5850, 5999, 815, 23850, 23850, 23999},
{19, 875, 6000, 6000, 6149, 830, 24000, 24000, 24149},
{20, 791, 6150, 6150, 6449, 832, 24150, 24150, 24449},
{21, 1495.9, 6450, 6450, 6599, 1447.9, 24450, 24450, 24599},
{33, 1900, 36000, 36000, 36199, 1900, 36000, 36000, 36199},
{34, 2010, 36200, 36200, 36349, 2010, 36200, 36200, 36349},
{35, 1850, 36350, 36350, 36949, 1850, 36350, 36350, 36949},
{36, 1930, 36950, 36950, 37549, 1930, 36950, 36950, 37549},
{37, 1910, 37550, 37550, 37749, 1910, 37550, 37550, 37749},
{38, 2570, 37750, 37750, 38249, 2570, 37750, 37750, 38249},
{39, 1880, 38250, 38250, 38649, 1880, 38250, 38250, 38649},
{40, 2300, 38650, 38650, 39649, 2300, 38650, 38650, 39649},
}

Eutra channel numbers.

Definition at line 72 of file lte-spectrum-value-helper.cc.

Referenced by ns3::LteSpectrumValueHelper::GetDownlinkCarrierBand(), ns3::LteSpectrumValueHelper::GetDownlinkCarrierFrequency(), ns3::LteSpectrumValueHelper::GetUplinkCarrierBand(), and ns3::LteSpectrumValueHelper::GetUplinkCarrierFrequency().

◆ g_ffrEnhancedDownlinkDefaultConfiguration

const FfrEnhancedDownlinkDefaultConfiguration ns3::g_ffrEnhancedDownlinkDefaultConfiguration[]
static
Initial value:
{
{1, 25, 0, 4, 4},
{2, 25, 8, 4, 4},
{3, 25, 16, 4, 4},
{1, 50, 0, 9, 6},
{2, 50, 15, 9, 6},
{3, 50, 30, 9, 6},
{1, 75, 0, 8, 16},
{2, 75, 24, 8, 16},
{3, 75, 48, 8, 16},
{1, 100, 0, 16, 16},
{2, 100, 32, 16, 16},
{3, 100, 64, 16, 16},
}

The enhanced downlink default configuration.

Definition at line 59 of file lte-ffr-enhanced-algorithm.cc.

Referenced by ns3::LteFfrEnhancedAlgorithm::SetDownlinkConfiguration().

◆ g_ffrEnhancedUplinkDefaultConfiguration

const FfrEnhancedUplinkDefaultConfiguration ns3::g_ffrEnhancedUplinkDefaultConfiguration[]
static
Initial value:
{
{1, 25, 0, 4, 4},
{2, 25, 8, 4, 4},
{3, 25, 16, 4, 4},
{1, 50, 0, 9, 6},
{2, 50, 15, 9, 6},
{3, 50, 30, 9, 6},
{1, 75, 0, 8, 16},
{2, 75, 24, 8, 16},
{3, 75, 48, 8, 16},
{1, 100, 0, 16, 16},
{2, 100, 32, 16, 16},
{3, 100, 64, 16, 16},
}

The enhanced uplink default configuration.

Definition at line 85 of file lte-ffr-enhanced-algorithm.cc.

Referenced by ns3::LteFfrEnhancedAlgorithm::SetUplinkConfiguration().

◆ g_ffrSoftDownlinkDefaultConfiguration

const FfrSoftDownlinkDefaultConfiguration ns3::g_ffrSoftDownlinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 2, 0, 4},
{2, 15, 2, 4, 4},
{3, 15, 2, 8, 4},
{1, 25, 6, 0, 6},
{2, 25, 6, 6, 6},
{3, 25, 6, 12, 6},
{1, 50, 21, 0, 9},
{2, 50, 21, 9, 9},
{3, 50, 21, 18, 11},
{1, 75, 36, 0, 12},
{2, 75, 36, 12, 12},
{3, 75, 36, 24, 15},
{1, 100, 28, 0, 24},
{2, 100, 28, 24, 24},
{3, 100, 28, 48, 24},
}

The soft downlink default configuration.

Definition at line 33 of file lte-ffr-soft-algorithm.cc.

Referenced by ns3::LteFfrSoftAlgorithm::SetDownlinkConfiguration().

◆ g_ffrSoftUplinkDefaultConfiguration

const FfrSoftUplinkDefaultConfiguration ns3::g_ffrSoftUplinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 3, 0, 4},
{2, 15, 3, 4, 4},
{3, 15, 3, 8, 4},
{1, 25, 6, 0, 6},
{2, 25, 6, 6, 6},
{3, 25, 6, 12, 6},
{1, 50, 21, 0, 9},
{2, 50, 21, 9, 9},
{3, 50, 21, 18, 11},
{1, 75, 36, 0, 12},
{2, 75, 36, 12, 12},
{3, 75, 36, 24, 15},
{1, 100, 28, 0, 24},
{2, 100, 28, 24, 24},
{3, 100, 28, 48, 24},
}

The soft uplink default configuration.

Definition at line 62 of file lte-ffr-soft-algorithm.cc.

Referenced by ns3::LteFfrSoftAlgorithm::SetUplinkConfiguration().

◆ g_frHardDownlinkDefaultConfiguration

const FrHardDownlinkDefaultConfiguration ns3::g_frHardDownlinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 0, 4},
{2, 15, 4, 4},
{3, 15, 8, 6},
{1, 25, 0, 8},
{2, 25, 8, 8},
{3, 25, 16, 9},
{1, 50, 0, 16},
{2, 50, 16, 16},
{3, 50, 32, 18},
{1, 75, 0, 24},
{2, 75, 24, 24},
{3, 75, 48, 27},
{1, 100, 0, 32},
{2, 100, 32, 32},
{3, 100, 64, 36},
}

The hard downlink default configuration.

Definition at line 31 of file lte-fr-hard-algorithm.cc.

Referenced by ns3::LteFrHardAlgorithm::SetDownlinkConfiguration().

◆ g_frHardUplinkDefaultConfiguration

const FrHardUplinkDefaultConfiguration ns3::g_frHardUplinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 0, 5},
{2, 15, 5, 5},
{3, 15, 10, 5},
{1, 25, 0, 8},
{2, 25, 8, 8},
{3, 25, 16, 9},
{1, 50, 0, 16},
{2, 50, 16, 16},
{3, 50, 32, 18},
{1, 75, 0, 24},
{2, 75, 24, 24},
{3, 75, 48, 27},
{1, 100, 0, 32},
{2, 100, 32, 32},
{3, 100, 64, 36},
}

The hard uplink default configuration.

Definition at line 59 of file lte-fr-hard-algorithm.cc.

Referenced by ns3::LteFrHardAlgorithm::SetUplinkConfiguration().

◆ g_frSoftDownlinkDefaultConfiguration

const FrSoftDownlinkDefaultConfiguration ns3::g_frSoftDownlinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 0, 4},
{2, 15, 4, 4},
{3, 15, 8, 6},
{1, 25, 0, 8},
{2, 25, 8, 8},
{3, 25, 16, 9},
{1, 50, 0, 16},
{2, 50, 16, 16},
{3, 50, 32, 18},
{1, 75, 0, 24},
{2, 75, 24, 24},
{3, 75, 48, 27},
{1, 100, 0, 32},
{2, 100, 32, 32},
{3, 100, 64, 36},
}

Soft downlink default configuration.

Definition at line 32 of file lte-fr-soft-algorithm.cc.

Referenced by ns3::LteFrSoftAlgorithm::SetDownlinkConfiguration().

◆ g_frSoftUplinkDefaultConfiguration

const FrSoftUplinkDefaultConfiguration ns3::g_frSoftUplinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 0, 5},
{2, 15, 5, 5},
{3, 15, 10, 5},
{1, 25, 0, 8},
{2, 25, 8, 8},
{3, 25, 16, 9},
{1, 50, 0, 16},
{2, 50, 16, 16},
{3, 50, 32, 18},
{1, 75, 0, 24},
{2, 75, 24, 24},
{3, 75, 48, 27},
{1, 100, 0, 32},
{2, 100, 32, 32},
{3, 100, 64, 36},
}

Soft uplink default configuration.

Definition at line 60 of file lte-fr-soft-algorithm.cc.

Referenced by ns3::LteFrSoftAlgorithm::SetUplinkConfiguration().

◆ g_frStrictDownlinkDefaultConfiguration

const FrStrictDownlinkDefaultConfiguration ns3::g_frStrictDownlinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 2, 0, 4},
{2, 15, 2, 4, 4},
{3, 15, 2, 8, 4},
{1, 25, 6, 0, 6},
{2, 25, 6, 6, 6},
{3, 25, 6, 12, 6},
{1, 50, 21, 0, 9},
{2, 50, 21, 9, 9},
{3, 50, 21, 18, 11},
{1, 75, 36, 0, 12},
{2, 75, 36, 12, 12},
{3, 75, 36, 24, 15},
{1, 100, 28, 0, 24},
{2, 100, 28, 24, 24},
{3, 100, 28, 48, 24},
}

The strict downlink default configuration.

Definition at line 33 of file lte-fr-strict-algorithm.cc.

Referenced by ns3::LteFrStrictAlgorithm::SetDownlinkConfiguration().

◆ g_frStrictUplinkDefaultConfiguration

const FrStrictUplinkDefaultConfiguration ns3::g_frStrictUplinkDefaultConfiguration[]
static
Initial value:
{
{1, 15, 3, 0, 4},
{2, 15, 3, 4, 4},
{3, 15, 3, 8, 4},
{1, 25, 6, 0, 6},
{2, 25, 6, 6, 6},
{3, 25, 6, 12, 6},
{1, 50, 21, 0, 9},
{2, 50, 21, 9, 9},
{3, 50, 21, 18, 11},
{1, 75, 36, 0, 12},
{2, 75, 36, 12, 12},
{3, 75, 36, 24, 15},
{1, 100, 28, 0, 24},
{2, 100, 28, 24, 24},
{3, 100, 28, 48, 24},
}

The strict uplink default configuration.

Definition at line 62 of file lte-fr-strict-algorithm.cc.

Referenced by ns3::LteFrStrictAlgorithm::SetUplinkConfiguration().

◆ g_handoverCommandMsgIdCounter

uint32_t ns3::g_handoverCommandMsgIdCounter = 0
static

handover command message ID counter

Definition at line 575 of file lte-rrc-protocol-ideal.cc.

Referenced by ns3::LteEnbRrcProtocolIdeal::DoEncodeHandoverCommand().

◆ g_handoverCommandMsgMap

std::map<uint32_t, LteRrcSap::RrcConnectionReconfiguration> ns3::g_handoverCommandMsgMap
static

◆ g_handoverPreparationInfoMsgIdCounter

uint32_t ns3::g_handoverPreparationInfoMsgIdCounter
static
Initial value:
=
0

handover preparation info message ID counter

Definition at line 450 of file lte-rrc-protocol-ideal.cc.

Referenced by ns3::LteEnbRrcProtocolIdeal::DoEncodeHandoverPreparationInformation().

◆ g_handoverPreparationInfoMsgMap

std::map<uint32_t, LteRrcSap::HandoverPreparationInfo> ns3::g_handoverPreparationInfoMsgMap
static

◆ g_interfaceFileMapIpv4 [1/2]

◆ g_interfaceFileMapIpv4 [2/2]

InterfaceFileMapIpv4 ns3::g_interfaceFileMapIpv4
static

A mapping of Ipv4/interface pairs to pcap files.

Definition at line 90 of file internet-stack-helper.cc.

◆ g_interfaceFileMapIpv6

InterfaceFileMapIpv6 ns3::g_interfaceFileMapIpv6
static

A mapping of Ipv6/interface pairs to pcap files.

Definition at line 101 of file internet-stack-helper.cc.

Referenced by ns3::InternetStackHelper::EnablePcapIpv6Internal(), Ipv6L3ProtocolRxTxSink(), and ns3::InternetStackHelper::PcapHooked().

◆ g_interfaceStreamMapIpv4 [1/2]

◆ g_interfaceStreamMapIpv4 [2/2]

InterfaceStreamMapIpv4 ns3::g_interfaceStreamMapIpv4
static

A mapping of Ipv4/interface pairs to ascii streams.

Definition at line 92 of file internet-stack-helper.cc.

◆ g_interfaceStreamMapIpv6

◆ g_ipv4ListRoutingTestSuite

Ipv4ListRoutingTestSuite ns3::g_ipv4ListRoutingTestSuite
static

Static variable for test initialization.

Definition at line 209 of file ipv4-list-routing-test-suite.cc.

◆ g_ipv6ListRoutingTestSuite

Ipv6ListRoutingTestSuite ns3::g_ipv6ListRoutingTestSuite
static

Static variable for test initialization.

Definition at line 238 of file ipv6-list-routing-test-suite.cc.

◆ g_lteSpectrumModelMap

std::map<LteSpectrumModelId, Ptr<SpectrumModel> > ns3::g_lteSpectrumModelMap
static

LTE spectrum model map.

Definition at line 236 of file lte-spectrum-value-helper.cc.

Referenced by ns3::LteSpectrumValueHelper::GetSpectrumModel().

◆ g_markingMutex

std::mutex ns3::g_markingMutex
static

The static mutex for critical sections around modification of Time::g_markingTimes.

Definition at line 81 of file time.cc.

Referenced by ns3::Time::Clear(), ns3::Time::ClearMarkedTimes(), ns3::Time::ConvertTimes(), ns3::Time::Mark(), and ns3::Time::StaticInit().

◆ g_maxSize

uint32_t ns3::g_maxSize = 0
static

maximum data size (used for allocation)

Definition at line 54 of file byte-tag-list.cc.

Referenced by ns3::ByteTagList::Allocate(), and ns3::ByteTagList::Deallocate().

◆ g_MicrowaveOvenSpectrumModel5Mhz

Ptr<SpectrumModel> ns3::g_MicrowaveOvenSpectrumModel5Mhz
static

◆ g_MicrowaveOvenSpectrumModel6Mhz

Ptr<SpectrumModel> ns3::g_MicrowaveOvenSpectrumModel6Mhz
static

◆ g_printList

PrintList ns3::g_printList
static

Invoke handler for print-list in NS_LOG environment variable.

This is private to the logging implementation.

Definition at line 128 of file log.cc.

◆ g_srsCiHigh

const uint16_t ns3::g_srsCiHigh[SRS_ENTRIES] = {0, 1, 6, 16, 36, 76, 156, 316, 636}
static

The upper bound (inclusive) of the SRS configuration indices (ISRS) which use the corresponding SRS periodicity (TSRS).

Taken from 3GPP TS 36.213 Table 8.2-1. Index starts from 1.

Definition at line 3349 of file lte-enb-rrc.cc.

Referenced by ns3::LteEnbRrc::GetNewSrsConfigurationIndex().

◆ g_srsCiLow

const uint16_t ns3::g_srsCiLow[SRS_ENTRIES] = {0, 0, 2, 7, 17, 37, 77, 157, 317}
static

The lower bound (inclusive) of the SRS configuration indices (ISRS) which use the corresponding SRS periodicity (TSRS).

Taken from 3GPP TS 36.213 Table 8.2-1. Index starts from 1.

Definition at line 3343 of file lte-enb-rrc.cc.

Referenced by ns3::LteEnbRrc::GetNewSrsConfigurationIndex().

◆ g_srsPeriodicity

const uint16_t ns3::g_srsPeriodicity[SRS_ENTRIES] = {0, 2, 5, 10, 20, 40, 80, 160, 320}
static

Sounding Reference Symbol (SRS) periodicity (TSRS) in milliseconds.

Taken from 3GPP TS 36.213 Table 8.2-1. Index starts from 1.

Definition at line 3337 of file lte-enb-rrc.cc.

Referenced by ns3::LteEnbRrc::GetNewSrsConfigurationIndex(), ns3::LteEnbRrc::GetSrsPeriodicity(), ns3::LteEnbRrc::IsMaxSrsReached(), and ns3::LteEnbRrc::SetSrsPeriodicity().

◆ g_tcpBbrTest

TcpBbrTestSuite ns3::g_tcpBbrTest
static

static variable for test initialization

Definition at line 221 of file tcp-bbr-test.cc.

◆ g_tcpECNTestSuite

TcpEcnTestSuite ns3::g_tcpECNTestSuite
static

static var for test initialization

Definition at line 595 of file tcp-ecn-test.cc.

◆ g_tcplpTest

TcpLpTestSuite ns3::g_tcplpTest
static

static var for test initialization

Definition at line 282 of file tcp-lp-test.cc.

◆ g_tcpTcpCloseTestSuite

TcpTcpCloseTestSuite ns3::g_tcpTcpCloseTestSuite
static

Static variable for test initialization.

Definition at line 158 of file tcp-close-test.cc.

◆ g_timeInitHelper

TimeInitializationHelper ns3::g_timeInitHelper
static

Instance of Time static initialization helper.

Definition at line 1494 of file nstime.h.

◆ g_tvSpectrumModelMap

std::map<TvSpectrumModelId, Ptr<SpectrumModel> > ns3::g_tvSpectrumModelMap
static

Stores created spectrum models.

Definition at line 216 of file tv-spectrum-transmitter.cc.

Referenced by ns3::TvSpectrumTransmitter::CreateTvPsd().

◆ g_ueManagerStateName

const std::string ns3::g_ueManagerStateName[UeManager::NUM_STATES]
static
Initial value:
= {
"INITIAL_RANDOM_ACCESS",
"CONNECTION_SETUP",
"CONNECTION_REJECTED",
"ATTACH_REQUEST",
"CONNECTED_NORMALLY",
"CONNECTION_RECONFIGURATION",
"CONNECTION_REESTABLISHMENT",
"HANDOVER_PREPARATION",
"HANDOVER_JOINING",
"HANDOVER_PATH_SWITCH",
"HANDOVER_LEAVING",
}

Map each of UE Manager states to its string representation.

Definition at line 106 of file lte-enb-rrc.cc.

Referenced by ToString().

◆ g_ueNasStateName

const std::string ns3::g_ueNasStateName[EpcUeNas::NUM_STATES]
static
Initial value:
= {
"OFF",
"ATTACHING",
"IDLE_REGISTERED",
"CONNECTING_TO_EPC",
"ACTIVE",
}

Map each of UE NAS states to its string representation.

Definition at line 24 of file epc-ue-nas.cc.

Referenced by ToString().

◆ g_uePhyStateName

const std::string ns3::g_uePhyStateName[LteUePhy::NUM_STATES]
static
Initial value:
= {
"CELL_SEARCH",
"SYNCHRONIZED",
}

Map each of UE PHY states to its string representation.

Definition at line 115 of file lte-ue-phy.cc.

Referenced by ToString().

◆ g_ueRrcStateName

const std::string ns3::g_ueRrcStateName[LteUeRrc::NUM_STATES]
static
Initial value:
= {
"IDLE_START",
"IDLE_CELL_SEARCH",
"IDLE_WAIT_MIB_SIB1",
"IDLE_WAIT_MIB",
"IDLE_WAIT_SIB1",
"IDLE_CAMPED_NORMALLY",
"IDLE_WAIT_SIB2",
"IDLE_RANDOM_ACCESS",
"IDLE_CONNECTING",
"CONNECTED_NORMALLY",
"CONNECTED_HANDOVER",
"CONNECTED_PHY_PROBLEM",
"CONNECTED_REESTABLISHING",
}

Map each of UE RRC states to its string representation.

Definition at line 86 of file lte-ue-rrc.cc.

Referenced by ns3::LteUeRrc::ToString().

◆ g_visualizer

PyViz* ns3::g_visualizer = nullptr
static

◆ g_WifiSpectrumModel5Mhz

◆ g_WifiSpectrumModel5MhzInitializerInstance

class ns3::WifiSpectrumModel5MhzInitializer ns3::g_WifiSpectrumModel5MhzInitializerInstance
static

initialization instance for WifiSpectrumModel5Mhz

◆ g_wifiSpectrumModelMap

std::map<WifiSpectrumModelId, Ptr<SpectrumModel> > ns3::g_wifiSpectrumModelMap
static

static initializer for the class

Definition at line 80 of file wifi-spectrum-value-helper.cc.

Referenced by ns3::WifiSpectrumValueHelper::GetSpectrumModel().

◆ gVerbose

bool ns3::gVerbose = false

Flag to enable / disable verbose log mode.

Definition at line 31 of file creator-utils.cc.

◆ HARQ_DL_TIMEOUT

◆ HARQ_PROC_NUM

uint32_t ns3::HARQ_PROC_NUM = 8
constexpr

Number of HARQ processes.

Definition at line 58 of file ff-mac-scheduler.h.

Referenced by ns3::CqaFfMacScheduler::DoSchedDlTriggerReq(), ns3::FdBetFfMacScheduler::DoSchedDlTriggerReq(), ns3::FdMtFfMacScheduler::DoSchedDlTriggerReq(), ns3::FdTbfqFfMacScheduler::DoSchedDlTriggerReq(), ns3::PfFfMacScheduler::DoSchedDlTriggerReq(), ns3::PssFfMacScheduler::DoSchedDlTriggerReq(), ns3::RrFfMacScheduler::DoSchedDlTriggerReq(), ns3::TdBetFfMacScheduler::DoSchedDlTriggerReq(), ns3::TdMtFfMacScheduler::DoSchedDlTriggerReq(), ns3::TdTbfqFfMacScheduler::DoSchedDlTriggerReq(), ns3::TtaFfMacScheduler::DoSchedDlTriggerReq(), ns3::CqaFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdBetFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdMtFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdTbfqFfMacScheduler::DoSchedUlTriggerReq(), ns3::PfFfMacScheduler::DoSchedUlTriggerReq(), ns3::PssFfMacScheduler::DoSchedUlTriggerReq(), ns3::RrFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdBetFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdMtFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdTbfqFfMacScheduler::DoSchedUlTriggerReq(), ns3::TtaFfMacScheduler::DoSchedUlTriggerReq(), ns3::CqaFfMacScheduler::HarqProcessAvailability(), ns3::FdBetFfMacScheduler::HarqProcessAvailability(), ns3::FdMtFfMacScheduler::HarqProcessAvailability(), ns3::FdTbfqFfMacScheduler::HarqProcessAvailability(), ns3::PfFfMacScheduler::HarqProcessAvailability(), ns3::PssFfMacScheduler::HarqProcessAvailability(), ns3::RrFfMacScheduler::HarqProcessAvailability(), ns3::TdBetFfMacScheduler::HarqProcessAvailability(), ns3::TdMtFfMacScheduler::HarqProcessAvailability(), ns3::TdTbfqFfMacScheduler::HarqProcessAvailability(), ns3::TtaFfMacScheduler::HarqProcessAvailability(), ns3::CqaFfMacScheduler::RefreshHarqProcesses(), ns3::FdBetFfMacScheduler::RefreshHarqProcesses(), ns3::FdMtFfMacScheduler::RefreshHarqProcesses(), ns3::FdTbfqFfMacScheduler::RefreshHarqProcesses(), ns3::PfFfMacScheduler::RefreshHarqProcesses(), ns3::PssFfMacScheduler::RefreshHarqProcesses(), ns3::RrFfMacScheduler::RefreshHarqProcesses(), ns3::TdBetFfMacScheduler::RefreshHarqProcesses(), ns3::TdMtFfMacScheduler::RefreshHarqProcesses(), ns3::TdTbfqFfMacScheduler::RefreshHarqProcesses(), ns3::TtaFfMacScheduler::RefreshHarqProcesses(), ns3::CqaFfMacScheduler::UpdateHarqProcessId(), ns3::FdBetFfMacScheduler::UpdateHarqProcessId(), ns3::FdMtFfMacScheduler::UpdateHarqProcessId(), ns3::FdTbfqFfMacScheduler::UpdateHarqProcessId(), ns3::PfFfMacScheduler::UpdateHarqProcessId(), ns3::PssFfMacScheduler::UpdateHarqProcessId(), ns3::RrFfMacScheduler::UpdateHarqProcessId(), ns3::TdBetFfMacScheduler::UpdateHarqProcessId(), ns3::TdMtFfMacScheduler::UpdateHarqProcessId(), ns3::TdTbfqFfMacScheduler::UpdateHarqProcessId(), and ns3::TtaFfMacScheduler::UpdateHarqProcessId().

◆ HT_MAX_NSS

uint8_t ns3::HT_MAX_NSS = 4
constexpr

Maximum number of supported NSS by HT PHY.

Definition at line 30 of file ht-phy.h.

Referenced by ns3::HtPhy::HtPhy(), and ns3::HtPhy::SetMaxSupportedNss().

◆ initialized

bool ns3::initialized = false
static

Initialization flag.

Definition at line 61 of file animation-interface.cc.

Referenced by ns3::AnimationInterface::AnimationInterface(), and ns3::AnimationInterface::IsInitialized().

◆ japanArrayLength

const int ns3::japanArrayLength = 63

◆ japanEndFrequencies

const double ns3::japanEndFrequencies[63]
Initial value:
= {
0, 96e6, 102e6, 108e6, 176e6, 182e6, 188e6, 194e6, 198e6, 204e6, 210e6, 216e6, 222e6,
476e6, 482e6, 488e6, 494e6, 500e6, 506e6, 512e6, 518e6, 524e6, 530e6, 536e6, 542e6, 548e6,
554e6, 560e6, 566e6, 572e6, 578e6, 584e6, 590e6, 596e6, 602e6, 608e6, 614e6, 620e6, 626e6,
632e6, 638e6, 644e6, 650e6, 656e6, 662e6, 668e6, 674e6, 680e6, 686e6, 692e6, 698e6, 704e6,
710e6, 716e6, 722e6, 728e6, 734e6, 740e6, 746e6, 752e6, 758e6, 764e6, 770e6,
}

JAPAN end frequencies.

Definition at line 83 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ japanStartFrequencies

const double ns3::japanStartFrequencies[63]
Initial value:
= {
0, 90e6, 96e6, 102e6, 170e6, 176e6, 182e6, 188e6, 192e6, 198e6, 204e6, 210e6, 216e6,
470e6, 476e6, 482e6, 488e6, 494e6, 500e6, 506e6, 512e6, 518e6, 524e6, 530e6, 536e6, 542e6,
548e6, 554e6, 560e6, 566e6, 572e6, 578e6, 584e6, 590e6, 596e6, 602e6, 608e6, 614e6, 620e6,
626e6, 632e6, 638e6, 644e6, 650e6, 656e6, 662e6, 668e6, 674e6, 680e6, 686e6, 692e6, 698e6,
704e6, 710e6, 716e6, 722e6, 728e6, 734e6, 740e6, 746e6, 752e6, 758e6, 764e6,
}

JAPAN start frequencies.

Definition at line 75 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::CreateRegionalTvTransmitters(), ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ LLC_SNAP_HEADER_LENGTH

const uint16_t ns3::LLC_SNAP_HEADER_LENGTH = 8
static

The length in octets of the LLC/SNAP header.

Definition at line 23 of file llc-snap-header.h.

Referenced by ns3::LlcSnapHeader::GetSerializedSize(), ns3::WifiNetDevice::GetTypeId(), and ns3::WifiNetDevice::SetMtu().

◆ MAGIC

const uint32_t ns3::MAGIC = 0xa1b2c3d4

Magic number identifying standard pcap file format.

Definition at line 33 of file pcap-file.cc.

Referenced by ns3::PcapFile::Init(), and ns3::PcapFile::ReadAndVerifyFileHeader().

◆ MAX_HE_GROUP_RATES

const uint8_t ns3::MAX_HE_GROUP_RATES = 12
static

Number of rates (or MCS) per HE group.

Definition at line 176 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ MAX_HE_STREAM_GROUPS

const uint8_t ns3::MAX_HE_STREAM_GROUPS
static
Initial value:
=
12

Maximal number of groups per stream in HE (4 possible channel widths and 3 possible GI configurations).

Definition at line 171 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ MAX_HE_SUPPORTED_STREAMS

const uint8_t ns3::MAX_HE_SUPPORTED_STREAMS
static
Initial value:
=
8

Maximal number of streams supported by the HE PHY layer.

Definition at line 163 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), and ns3::MinstrelHtWifiManager::GetHeGroupId().

◆ MAX_HE_WIDTH

const MHz_u ns3::MAX_HE_WIDTH = 160
static

Maximal channel width.

Definition at line 179 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ MAX_HT_GROUP_RATES

const uint8_t ns3::MAX_HT_GROUP_RATES = 8
static

Number of rates (or MCS) per HT group.

Definition at line 174 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), and ns3::MinstrelHtWifiManager::RateInit().

◆ MAX_HT_STREAM_GROUPS

const uint8_t ns3::MAX_HT_STREAM_GROUPS
static
Initial value:
=
4

Maximal number of groups per stream in HT (2 possible channel widths and 2 possible GI configurations).

Definition at line 165 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), ns3::MinstrelHtWifiManager::GetHeGroupId(), and ns3::MinstrelHtWifiManager::GetVhtGroupId().

◆ MAX_HT_SUPPORTED_STREAMS

const uint8_t ns3::MAX_HT_SUPPORTED_STREAMS
static
Initial value:
=
4

Constants for maximum values.

Maximal number of streams supported by the HT PHY layer.

Definition at line 159 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), ns3::MinstrelHtWifiManager::GetHeGroupId(), ns3::MinstrelHtWifiManager::GetHtGroupId(), and ns3::MinstrelHtWifiManager::GetVhtGroupId().

◆ MAX_HT_WIDTH

const MHz_u ns3::MAX_HT_WIDTH = 40
static

Maximal channel width.

Definition at line 177 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ MAX_IPV4_UDP_DATAGRAM_SIZE

const uint32_t ns3::MAX_IPV4_UDP_DATAGRAM_SIZE = 65507
static

Maximum UDP datagram size.

Definition at line 43 of file udp-socket-impl.cc.

Referenced by ns3::UdpSocketImpl::GetTxAvailable().

◆ MAX_MPI_MSG_SIZE

const uint32_t ns3::MAX_MPI_MSG_SIZE = 2000

maximum MPI message size for easy buffer creation

Definition at line 35 of file granted-time-window-mpi-interface.h.

Referenced by ns3::GrantedTimeWindowMpiInterface::Enable(), and ns3::GrantedTimeWindowMpiInterface::ReceiveMessages().

◆ MAX_MSDU_SIZE

const uint16_t ns3::MAX_MSDU_SIZE = 2304
static

This value conforms to the 802.11 specification.

Definition at line 32 of file wifi-net-device.h.

Referenced by ns3::WifiNetDevice::GetTypeId(), and ns3::WifiNetDevice::SetMtu().

◆ MAX_NO_CC

◆ MAX_PROPAGATION_DELAY_USEC

uint8_t ns3::MAX_PROPAGATION_DELAY_USEC = 1
staticconstexpr

maximum propagation delay

Definition at line 43 of file wifi-phy-common.h.

Referenced by EmlsrUlTxopTest::CheckCtsFrames(), and EmlsrUlTxopTest::CheckQosFrames().

◆ MAX_VHT_GROUP_RATES

const uint8_t ns3::MAX_VHT_GROUP_RATES = 10
static

Number of rates (or MCS) per VHT group.

Definition at line 175 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ MAX_VHT_STREAM_GROUPS

const uint8_t ns3::MAX_VHT_STREAM_GROUPS
static
Initial value:
=
8

Maximal number of groups per stream in VHT (4 possible channel widths and 2 possible GI configurations).

Definition at line 168 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), and ns3::MinstrelHtWifiManager::GetHeGroupId().

◆ MAX_VHT_SUPPORTED_STREAMS

const uint8_t ns3::MAX_VHT_SUPPORTED_STREAMS
static
Initial value:
=
8

Maximal number of streams supported by the VHT PHY layer.

Definition at line 161 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize(), ns3::MinstrelHtWifiManager::GetHeGroupId(), and ns3::MinstrelHtWifiManager::GetVhtGroupId().

◆ MAX_VHT_WIDTH

const MHz_u ns3::MAX_VHT_WIDTH = 160
static

Maximal channel width.

Definition at line 178 of file minstrel-ht-wifi-manager.h.

Referenced by ns3::MinstrelHtWifiManager::DoInitialize().

◆ McsEcrBlerTableMapping

const uint8_t ns3::McsEcrBlerTableMapping[29]
static
Initial value:
= {
3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 16, 17, 18, 19, 20,
21, 22, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37,
}

Table codifing standard MCSs ECR to available ECRs.

Definition at line 54 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats().

◆ McsEcrTable

const double ns3::McsEcrTable[29]
static
Initial value:
= {
0.08, 0.1, 0.11, 0.15, 0.19, 0.24, 0.3, 0.37, 0.44, 0.51, 0.3, 0.33, 0.37, 0.42, 0.48,
0.54, 0.6, 0.43, 0.45, 0.5, 0.55, 0.6, 0.65, 0.7, 0.75, 0.8, 0.85, 0.89, 0.92,
}

Table of ECR of the standard MCSs.

Definition at line 60 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats().

◆ McsToItbsDl

const int ns3::McsToItbsDl[29]
static
Initial value:
= {
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 9, 10, 11, 12, 13,
14, 15, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26,
}

Table of MCS index (IMCS) and its TBS index (ITBS).

Taken from 3GPP TS 36.213 v8.8.0 Table 7.1.7.1-1: Modulation and TBS index table for PDSCH. The index of the vector (range 0-28) identifies the MCS index.

Definition at line 95 of file lte-amc.cc.

Referenced by ns3::LteAmc::GetDlTbSizeFromMcs().

◆ McsToItbsUl

const int ns3::McsToItbsUl[29]
static
Initial value:
= {
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 10, 11, 12, 13,
14, 15, 16, 17, 18, 19, 19, 20, 21, 22, 23, 24, 25, 26,
}

Table of MCS index (IMCS) and its TBS index (ITBS).

Taken from 3GPP TS 36.213 v8.8.0 Table 8.6.1-1: Modulation, TBS index and redundancy version table for PUSCH. The index of the vector (range 0-28) identifies the MCS index.

Definition at line 105 of file lte-amc.cc.

Referenced by ns3::LteAmc::GetUlTbSizeFromMcs().

◆ MI_16QAM_BLER_MAX_ID

const uint16_t ns3::MI_16QAM_BLER_MAX_ID = 22

MI 16QAM BLER maximum ID.

Definition at line 52 of file lte-mi-error-model.h.

◆ MI_16QAM_MAX_ID

const uint16_t ns3::MI_16QAM_MAX_ID = 16

MI 16QAM maximum ID.

Definition at line 46 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats(), and ns3::LteMiErrorModel::Mib().

◆ MI_64QAM_BLER_MAX_ID

const uint16_t ns3::MI_64QAM_BLER_MAX_ID = 37

MI 64QAM BLER maximum ID.

Definition at line 54 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::MappingMiBler().

◆ MI_64QAM_MAX_ID

const uint16_t ns3::MI_64QAM_MAX_ID = 28

MI 64QAM maximum ID.

Definition at line 48 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats().

◆ MI_map_16qam

const double ns3::MI_map_16qam[MI_MAP_16QAM_SIZE]
static

MI map QPSK 16QAM.

Definition at line 306 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_map_16qam_axis

const double ns3::MI_map_16qam_axis[MI_MAP_16QAM_SIZE]
static

MI map 16QAM axis.

Definition at line 421 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_MAP_16QAM_SIZE

const uint16_t ns3::MI_MAP_16QAM_SIZE = 994

MI map 16QAM size.

Definition at line 40 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_map_64qam

const double ns3::MI_map_64qam[MI_MAP_64QAM_SIZE]
static

MI map 64QAM.

Definition at line 536 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_map_64qam_axis

const double ns3::MI_map_64qam_axis[MI_MAP_64QAM_SIZE]
static

MI map 64QAM axis.

Definition at line 624 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_MAP_64QAM_SIZE

const uint16_t ns3::MI_MAP_64QAM_SIZE = 752

MI map 64QAM size.

Definition at line 42 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::Mib().

◆ MI_map_qpsk

const double ns3::MI_map_qpsk[MI_MAP_QPSK_SIZE]
static

MI map QPSK.

Definition at line 120 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError(), and ns3::LteMiErrorModel::Mib().

◆ MI_map_qpsk_axis

const double ns3::MI_map_qpsk_axis[MI_MAP_QPSK_SIZE]
static

MI map QPSK axis.

Definition at line 213 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError(), and ns3::LteMiErrorModel::Mib().

◆ MI_MAP_QPSK_SIZE

const uint16_t ns3::MI_MAP_QPSK_SIZE = 797

MI map QPSK size.

Definition at line 38 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError(), and ns3::LteMiErrorModel::Mib().

◆ MI_QPSK_BLER_MAX_ID

const uint16_t ns3::MI_QPSK_BLER_MAX_ID = 12

MI QPSK BLER maximum ID.

Definition at line 50 of file lte-mi-error-model.h.

◆ MI_QPSK_MAX_ID

const uint16_t ns3::MI_QPSK_MAX_ID = 9

MI QPSK maximum ID.

Definition at line 44 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::GetTbDecodificationStats(), and ns3::LteMiErrorModel::Mib().

◆ MIN_NO_CC

uint32_t ns3::MIN_NO_CC = 1
constexpr

Minimum number of carrier components allowed by 3GPP up to R13.

Definition at line 25 of file lte-common.h.

Referenced by ns3::LteEnbRrc::GetTypeId(), ns3::LteHelper::GetTypeId(), and ns3::LteUeRrc::InitializeSap().

◆ N_BITS

const uint32_t ns3::N_BITS = 32

number of bits in a IPv4 address

Definition at line 179 of file ipv4-address-helper.cc.

Referenced by ns3::Ipv4AddressHelper::NumAddressBits().

◆ NaN

const double ns3::NaN = zero / zero
extern

◆ NO_SINR

double ns3::NO_SINR = -5000
constexpr

Value for SINR outside the range defined by FF-API, used to indicate that there is no CQI for this element.

Definition at line 55 of file ff-mac-scheduler.h.

Referenced by ns3::CqaFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdBetFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdMtFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::FdTbfqFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::PfFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::PssFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdBetFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdMtFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TdTbfqFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::TtaFfMacScheduler::DoSchedUlCqiInfoReq(), ns3::CqaFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdBetFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdMtFfMacScheduler::DoSchedUlTriggerReq(), ns3::FdTbfqFfMacScheduler::DoSchedUlTriggerReq(), ns3::PfFfMacScheduler::DoSchedUlTriggerReq(), ns3::PssFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdBetFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdMtFfMacScheduler::DoSchedUlTriggerReq(), ns3::TdTbfqFfMacScheduler::DoSchedUlTriggerReq(), ns3::TtaFfMacScheduler::DoSchedUlTriggerReq(), ns3::CqaFfMacScheduler::EstimateUlSinr(), ns3::FdBetFfMacScheduler::EstimateUlSinr(), ns3::FdMtFfMacScheduler::EstimateUlSinr(), ns3::FdTbfqFfMacScheduler::EstimateUlSinr(), ns3::LteFfrEnhancedAlgorithm::EstimateUlSinr(), ns3::PfFfMacScheduler::EstimateUlSinr(), ns3::PssFfMacScheduler::EstimateUlSinr(), ns3::TdBetFfMacScheduler::EstimateUlSinr(), ns3::TdMtFfMacScheduler::EstimateUlSinr(), ns3::TdTbfqFfMacScheduler::EstimateUlSinr(), and ns3::TtaFfMacScheduler::EstimateUlSinr().

◆ NO_USER_STA_ID

uint16_t ns3::NO_USER_STA_ID = 2046
staticconstexpr

STA_ID for a RU that is intended for no user (Section 26.11.1 802.11ax-2021)

Definition at line 29 of file wifi-tx-vector.h.

Referenced by ns3::HePpdu::SetHeMuUserInfos(), and ns3::WifiDefaultAckManager::TryUlMuTransmission().

◆ northAmericaArrayLength

const int ns3::northAmericaArrayLength = 84

◆ northAmericaEndFrequencies

const double ns3::northAmericaEndFrequencies[84]
Initial value:
= {
0, 0, 60e6, 66e6, 72e6, 82e6, 88e6, 180e6, 186e6, 192e6, 198e6, 204e6,
210e6, 216e6, 476e6, 482e6, 488e6, 494e6, 500e6, 506e6, 512e6, 518e6, 524e6, 530e6,
536e6, 542e6, 548e6, 554e6, 560e6, 566e6, 572e6, 578e6, 584e6, 590e6, 596e6, 602e6,
608e6, 614e6, 620e6, 626e6, 632e6, 638e6, 644e6, 650e6, 656e6, 662e6, 668e6, 674e6,
680e6, 686e6, 692e6, 698e6, 704e6, 710e6, 716e6, 722e6, 728e6, 734e6, 740e6, 746e6,
752e6, 758e6, 764e6, 770e6, 776e6, 782e6, 788e6, 794e6, 800e6, 806e6, 812e6, 818e6,
824e6, 830e6, 836e6, 842e6, 848e6, 854e6, 860e6, 866e6, 872e6, 878e6, 884e6, 890e6,
}

NORTH AMERICA end frequencies.

Definition at line 41 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ northAmericaStartFrequencies

const double ns3::northAmericaStartFrequencies[84]
Initial value:
= {
0, 0, 54e6, 60e6, 66e6, 76e6, 82e6, 174e6, 180e6, 186e6, 192e6, 198e6,
204e6, 210e6, 470e6, 476e6, 482e6, 488e6, 494e6, 500e6, 506e6, 512e6, 518e6, 524e6,
530e6, 536e6, 542e6, 548e6, 554e6, 560e6, 566e6, 572e6, 578e6, 584e6, 590e6, 596e6,
602e6, 608e6, 614e6, 620e6, 626e6, 632e6, 638e6, 644e6, 650e6, 656e6, 662e6, 668e6,
674e6, 680e6, 686e6, 692e6, 698e6, 704e6, 710e6, 716e6, 722e6, 728e6, 734e6, 740e6,
746e6, 752e6, 758e6, 764e6, 770e6, 776e6, 782e6, 788e6, 794e6, 800e6, 806e6, 812e6,
818e6, 824e6, 830e6, 836e6, 842e6, 848e6, 854e6, 860e6, 866e6, 872e6, 878e6, 884e6,
}

NORTH AMERICA start frequencies.

Definition at line 31 of file tv-spectrum-transmitter-helper.cc.

Referenced by ns3::TvSpectrumTransmitterHelper::CreateRegionalTvTransmitters(), ns3::TvSpectrumTransmitterHelper::Install(), and ns3::TvSpectrumTransmitterHelper::InstallAdjacent().

◆ NS_MAGIC

const uint32_t ns3::NS_MAGIC
Initial value:
=
0xa1b23c4d

Magic number identifying nanosec resolution pcap file format.

Definition at line 36 of file pcap-file.cc.

Referenced by ns3::PcapFile::Init(), and ns3::PcapFile::ReadAndVerifyFileHeader().

◆ NS_SWAPPED_MAGIC

const uint32_t ns3::NS_SWAPPED_MAGIC = 0x4d3cb2a1

Looks this way if byte swapping is required.

Definition at line 38 of file pcap-file.cc.

Referenced by ns3::PcapFile::ReadAndVerifyFileHeader().

◆ NTNDenseUrbanLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNDenseUrbanLOS
static

The nested map containing the 3GPP value tables for the NTN Dense Urban LOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 665 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNDenseUrbanNLOS

const std::map<std::string, std::map<int, std::array<float, 20> > > ns3::NTNDenseUrbanNLOS
static

The nested map containing the 3GPP value tables for the NTN Dense Urban NLOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 716 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNRuralLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNRuralLOS
static

The nested map containing the 3GPP value tables for the NTN Rural LOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 971 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNRuralNLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNRuralNLOS
static

The nested map containing the 3GPP value tables for the NTN Rural NLOS scenario The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle.

The inner vector collects the table3gpp values.

Definition at line 1022 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNSuburbanLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNSuburbanLOS
static

The nested map containing the 3GPP value tables for the NTN Suburban LOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 869 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNSuburbanNLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNSuburbanNLOS
static

The nested map containing the 3GPP value tables for the NTN Suburban NLOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 920 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNUrbanLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNUrbanLOS
static

The nested map containing the 3GPP value tables for the NTN Urban LOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 767 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NTNUrbanNLOS

const std::map<std::string, std::map<int, std::array<float, 22> > > ns3::NTNUrbanNLOS
static

The nested map containing the 3GPP value tables for the NTN Urban NLOS scenario.

The outer key specifies the band (either "S" or "Ka"), while the inner key represents the quantized elevation angle. The inner vector collects the table3gpp values.

Definition at line 818 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ NULL_MESSAGE_MAX_MPI_MSG_SIZE

const uint32_t ns3::NULL_MESSAGE_MAX_MPI_MSG_SIZE = 2000

maximum MPI message size for easy buffer creation

Definition at line 84 of file null-message-mpi-interface.cc.

Referenced by ns3::NullMessageMpiInterface::InitializeSendReceiveBuffers(), and ns3::NullMessageMpiInterface::ReceiveMessages().

◆ offSetAlpha

std::array<double, 20> ns3::offSetAlpha
staticconstexpr
Initial value:
= {
0.0447, -0.0447, 0.1413, -0.1413, 0.2492, -0.2492, 0.3715, -0.3715, 0.5129, -0.5129,
0.6797, -0.6797, 0.8844, -0.8844, 1.1481, -1.1481, 1.5195, -1.5195, 2.1551, -2.1551,
}

The ray offset angles within a cluster, given for rms angle spread normalized to 1.

(Table 7.5-3)

Definition at line 41 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GenerateChannelParameters().

◆ PDCCH_PCFICH_CURVE_SIZE

const uint16_t ns3::PDCCH_PCFICH_CURVE_SIZE = 46

PDCCH PCFICH curve size.

Definition at line 36 of file lte-mi-error-model.h.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError().

◆ PdcchPcfichBlerCurveXaxis

const double ns3::PdcchPcfichBlerCurveXaxis[PDCCH_PCFICH_CURVE_SIZE]
static
Initial value:
= {
-10, -9.8, -9.6, -9.4, -9.2, -9.0, -8.8, -8.6, -8.4, -8.2, -8.0, -7.8, -7.6, -7.4, -7.2, -7.0,
-6.8, -6.6, -6.4, -6.2, -6.0, -5.8, -5.6, -5.4, -5.2, -5.0, -4.8, -4.6, -4.4, -4.2, -4.0, -3.8,
-3.6, -3.4, -3.2, -3.0, -2.8, -2.6, -2.4, -2.2, -2.0, -1.8, -1.6, -1.4, -1.2, -1.0,
}

PCFICH-PDCCH Error model based on 3GPP R4-081920 "LTE PDCCH/PCFICH Demodulation Performance Results with Implementation Margin" X axis.

Definition at line 75 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError().

◆ PdcchPcfichBlerCurveYaxis

const double ns3::PdcchPcfichBlerCurveYaxis[PDCCH_PCFICH_CURVE_SIZE]
static
Initial value:
= {
0.922602, 0.871559, 0.82334, 0.777789, 0.734758, 0.694107, 0.655706, 0.619429,
0.585159, 0.552785, 0.520927, 0.479229, 0.440869, 0.405579, 0.373114, 0.343104,
0.309947, 0.279994, 0.252936, 0.228492, 0.206048, 0.181449, 0.159787, 0.140711,
0.123912, 0.109119, 0.0916184, 0.0769244, 0.0645871, 0.0542285, 0.0454971, 0.037584,
0.0310472, 0.0256473, 0.0211866, 0.0175023, 0.0144636, 0.0119524, 0.00987724, 0.00816236,
0.00673821, 0.00532283, 0.00420476, 0.00332154, 0.00262385, 0.0020727,
}

PCFICH-PDCCH Error model based on 3GPP R4-081920 "LTE PDCCH/PCFICH Demodulation Performance Results with Implementation Margin" Y axis.

Definition at line 84 of file lte-mi-error-model.cc.

Referenced by ns3::LteMiErrorModel::GetPcfichPdcchError().

◆ PfType0AllocationRbg

const int ns3::PfType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

PF type 0 allocation RBG.

Definition at line 29 of file pf-ff-mac-scheduler.cc.

Referenced by ns3::PfFfMacScheduler::GetRbgSize().

◆ PING_ID

uint16_t ns3::PING_ID {0xbeef}
constexpr

This value is used to quickly identify ECHO packets generated by this app.

Definition at line 43 of file ping.cc.

Referenced by ns3::Ping::Receive(), and ns3::Ping::Send().

◆ PssType0AllocationRbg

const int ns3::PssType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

PSS type 0 allocation RBG.

Definition at line 32 of file pss-ff-mac-scheduler.cc.

Referenced by ns3::PssFfMacScheduler::GetRbgSize().

◆ RAD_TO_DEG

const double ns3::RAD_TO_DEG = 180.0 / M_PI

Radians to Degrees conversion constant.

Definition at line 25 of file angles.cc.

Referenced by RadiansToDegrees().

◆ RRC_REAL_MSG_DELAY

◆ s_dsssRatesBpsList

const std::array<uint64_t, 4> ns3::s_dsssRatesBpsList = {1000000, 2000000, 5500000, 11000000}
static

DSSS rates in bits per second.

Definition at line 58 of file dsss-phy.cc.

Referenced by GetDsssRatesBpsList().

◆ s_erpOfdmRatesBpsList

const std::array<uint64_t, 8> ns3::s_erpOfdmRatesBpsList
static
Initial value:
=
{ 6000000, 9000000, 12000000, 18000000,
24000000, 36000000, 48000000, 54000000}

ERP OFDM rates in bits per second.

Definition at line 49 of file erp-ofdm-phy.cc.

Referenced by GetErpOfdmRatesBpsList().

◆ s_ofdmRatesBpsList

const std::map<MHz_u, std::array<uint64_t, 8> > ns3::s_ofdmRatesBpsList
Initial value:
=
{{ 20,
{ 6000000, 9000000, 12000000, 18000000,
24000000, 36000000, 48000000, 54000000 }},
{ 10,
{ 3000000, 4500000, 6000000, 9000000,
12000000, 18000000, 24000000, 27000000 }},
{ 5,
{ 1500000, 2250000, 3000000, 4500000,
6000000, 9000000, 12000000, 13500000 }},
}

OFDM rates in bits per second for each bandwidth.

Definition at line 73 of file ofdm-phy.cc.

Referenced by GetOfdmRatesBpsList().

◆ secondaryChannels

const std::map<MHz_u, WifiChannelListType> ns3::secondaryChannels
Initial value:
{
{80, WIFI_CHANLIST_SECONDARY80},
}
@ WIFI_CHANLIST_SECONDARY40

map a given secondary channel width to its channel list type

Definition at line 83 of file vht-phy.cc.

Referenced by ns3::VhtPhy::GetCcaIndication().

◆ SEQNO_SPACE_HALF_SIZE

◆ SEQNO_SPACE_SIZE

◆ SHIFT

const uint32_t ns3::SHIFT = 16

Number of places to shift WifiPpdu UID values, when generating unique IDs.

Definition at line 44 of file wifi-phy-rx-trace-helper.cc.

Referenced by ns3::WifiPhyRxTraceSink::UniqueTagGenerator::GenerateUniqueTag().

◆ SIM_PARAMS_TO_FTR_PARAMS_TABLE

const TwoRaySpectrumPropagationLossModel::FtrParamsLookupTable ns3::SIM_PARAMS_TO_FTR_PARAMS_TABLE
static

Lookup table associating the simulation parameters to the corresponding fitted FTR parameters.

The table is implemented as a nested map.

Definition at line 29 of file two-ray-spectrum-propagation-loss-model.cc.

Referenced by ns3::TwoRaySpectrumPropagationLossModel::GetFtrParameters(), and ns3::TwoRaySpectrumPropagationLossModel::SetScenario().

◆ SINGLE_LINK_OP_ID

◆ SNR_PRECISION

const double ns3::SNR_PRECISION = 2
static

precision for SNR

Definition at line 28 of file table-based-error-rate-model.cc.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ SpectralEfficiencyForCqi [1/2]

const double ns3::SpectralEfficiencyForCqi[16]
static
Initial value:
= {
0.0,
0.15,
0.23,
0.38,
0.6,
0.88,
1.18,
1.48,
1.91,
2.41,
2.73,
3.32,
3.9,
4.52,
5.12,
5.55,
}

Table of CQI index and its spectral efficiency.

Taken from 3GPP TSG-RAN WG1 [R1-081483 Conveying MCS and TB size via PDCCH] (http://www.3gpp.org/ftp/tsg_ran/WG1_RL1/TSGR1_52b/Docs/R1-081483.zip) file TBS_support.xls tab "MCS Table" (rounded to 2 decimal digits). The index of the vector (range 0-15) identifies the CQI value.

Definition at line 38 of file lte-amc.cc.

Referenced by ns3::LteAmc::CreateCqiFeedbacks(), ns3::LteAmc::GetCqiFromSpectralEfficiency(), ns3::LteFfrEnhancedAlgorithm::GetCqiFromSpectralEfficiency(), ns3::LteAmc::GetMcsFromCqi(), and ns3::LteAmc::GetSpectralEfficiencyFromCqi().

◆ SpectralEfficiencyForCqi [2/2]

const double ns3::SpectralEfficiencyForCqi[16]
static
Initial value:
= {
0.0,
0.15,
0.23,
0.38,
0.6,
0.88,
1.18,
1.48,
1.91,
2.41,
2.73,
3.32,
3.9,
4.52,
5.12,
5.55,
}

Spectral efficiency for CQI table.

Definition at line 29 of file lte-ffr-enhanced-algorithm.cc.

◆ SpectralEfficiencyForMcs

const double ns3::SpectralEfficiencyForMcs[32]
static
Initial value:
= {
0.15, 0.19, 0.23, 0.31, 0.38, 0.49, 0.6, 0.74, 0.88, 1.03, 1.18, 1.33, 1.48, 1.7, 1.91, 2.16,
2.41, 2.57, 2.73, 3.03, 3.32, 3.61, 3.9, 4.21, 4.52, 4.82, 5.12, 5.33, 5.55, 0, 0, 0,
}

Table of MCS index and its spectral efficiency.

Taken from 3GPP TSG-RAN WG1 [R1-081483 Conveying MCS and TB size via PDCCH] (http://www.3gpp.org/ftp/tsg_ran/WG1_RL1/TSGR1_52b/Docs/R1-081483.zip) file TBS_support.xls tab "MCS Table" (rounded to 2 decimal digits). The index of the vector (range 0-31) corresponds to the MCS index according to the convention in TS 36.213 (i.e., the MCS index reported in R1-081483 minus one)

Definition at line 85 of file lte-amc.cc.

Referenced by ns3::LteAmc::CreateCqiFeedbacks(), and ns3::LteAmc::GetMcsFromCqi().

◆ SPF_INFINITY

const uint32_t ns3::SPF_INFINITY = 0xffffffff

"infinite" distance between nodes

Definition at line 28 of file global-route-manager-impl.h.

◆ sqrtC_NTN_DenseUrban_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_NTN_DenseUrban_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.4, -0.4, 0.824621, 0, 0, 0, 0},
{-0.5, 0, 0.242536, 0.83137, 0, 0, 0},
{-0.5, -0.2, 0.630593, -0.484671, 0.278293, 0, 0},
{0, 0, -0.242536, 0.672172, 0.642214, 0.27735, 0},
{-0.8, 0, -0.388057, -0.367926, 0.238537, -4.09997e-15, 0.130931},
}}

The square root matrix for NTN Dense Urban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 249 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_DenseUrban_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_NTN_DenseUrban_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.4, 0.916515, 0, 0, 0, 0},
{-0.6, 0.174574, 0.78072, 0, 0, 0},
{0, 0.654654, 0.365963, 0.661438, 0, 0},
{0, -0.545545, 0.762422, 0.118114, 0.327327, 0},
{-0.4, -0.174574, -0.396459, 0.392138, 0.49099, 0.507445},
}}

The square root matrix for NTN Dense Urban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 267 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Rural_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_NTN_Rural_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.5, 0, 0.866025, 0, 0, 0, 0},
{0, 0, 0, 1, 0, 0, 0},
{0, 0, 0, 0, 1, 0, 0},
{0.01, 0, -0.0519615, 0.73, -0.2, 0.651383, 0},
{-0.17, -0.02, 0.21362, -0.14, 0.24, 0.142773, 0.909661},
}}

The square root matrix for NTN Rural LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-7 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 431 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Rural_NLOS_Ka

const std::map<int, std::array<std::array<double, 6>, 6> > ns3::sqrtC_NTN_Rural_NLOS_Ka
static

The square root matrix for NTN Rural NLOS Ka Band, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-8b and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The square root matrix is dependent on the elevation angle, which acts as the corresponding map's key..

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 546 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Rural_NLOS_S

const std::map<int, std::array<std::array<double, 6>, 6> > ns3::sqrtC_NTN_Rural_NLOS_S
static

The square root matrix for NTN Rural NLOS S Band, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-8a and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The square root matrix is dependent on the elevation angle, thus requiring a map.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 451 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Suburban_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_NTN_Suburban_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.4, -0.4, 0.824621, 0, 0, 0, 0},
{-0.5, 0, 0.242536, 0.83137, 0, 0, 0},
{-0.5, -0.2, 0.630593, -0.484671, 0.278293, 0, 0},
{0, 0, -0.242536, 0.672172, 0.642214, 0.27735, 0},
{-0.8, 0, -0.388057, -0.367926, 0.238537, -4.09997e-15, 0.130931},
}}

The square root matrix for NTN Suburban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-5 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 396 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Suburban_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_NTN_Suburban_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.4, 0.916515, 0, 0, 0, 0},
{-0.6, 0.174574, 0.78072, 0, 0, 0},
{0, 0.654654, 0.365963, 0.661438, 0, 0},
{0, -0.545545, 0.762422, 0.118114, 0.327327, 0},
{-0.4, -0.174574, -0.396459, 0.392138, 0.49099, 0.507445},
}}

The square root matrix for NTN Suburban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-6 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 414 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Urban_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_NTN_Urban_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.4, -0.4, 0.824621, 0, 0, 0, 0},
{-0.5, 0, 0.242536, 0.83137, 0, 0, 0},
{-0.5, -0.2, 0.630593, -0.484671, 0.278293, 0, 0},
{0, 0, -0.242536, 0.672172, 0.642214, 0.27735, 0},
{-0.8, 0, -0.388057, -0.367926, 0.238537, -4.09997e-15, 0.130931},
}}

The square root matrix for NTN Urban LOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-3 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 284 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_NTN_Urban_NLOS

const std::map<int, std::array<std::array<double, 6>, 6> > ns3::sqrtC_NTN_Urban_NLOS
static

The square root matrix for NTN Urban NLOS, which is generated using the Cholesky decomposition according to 3GPP TR 38.811 v15.4.0 table 6.7.2-4 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The square root matrix is dependent on the elevation angle, thus requiring a map.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 304 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_office_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_office_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0.5, 0.866025, 0, 0, 0, 0, 0},
{-0.8, -0.11547, 0.588784, 0, 0, 0, 0},
{-0.4, 0.23094, 0.520847, 0.717903, 0, 0, 0},
{-0.5, 0.288675, 0.73598, -0.348236, 0.0610847, 0, 0},
{0.2, -0.11547, 0.418943, 0.541106, 0.219905, 0.655744, 0},
{0.3, -0.057735, 0.73598, -0.348236, 0.0610847, -0.304997, 0.383375},
}}

The square root matrix for Indoor-Office LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 213 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_office_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_office_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.5, 0.866025, 0, 0, 0, 0},
{0, 0.46188, 0.886942, 0, 0, 0},
{-0.4, -0.23094, 0.120263, 0.878751, 0, 0},
{0, -0.311769, 0.55697, -0.249198, 0.728344, 0},
{0, -0.069282, 0.295397, 0.430696, 0.468462, 0.709214},
}}

The square root matrix for Indoor-Office NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The parameter K is ignored.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 232 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_RMa_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_RMa_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.5, 0, 0.866025, 0, 0, 0, 0},
{0, 0, 0, 1, 0, 0, 0},
{0, 0, 0, 0, 1, 0, 0},
{0.01, 0, -0.0519615, 0.73, -0.2, 0.651383, 0},
{-0.17, -0.02, 0.21362, -0.14, 0.24, 0.142773, 0.909661},
}}

The square root matrix for RMa LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 54 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_RMa_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_RMa_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.5, 0.866025, 0, 0, 0, 0},
{0.6, -0.11547, 0.791623, 0, 0, 0},
{0, 0, 0, 1, 0, 0},
{-0.04, -0.138564, 0.540662, -0.18, 0.809003, 0},
{-0.25, -0.606218, -0.240013, 0.26, -0.231685, 0.625392},
}}

The square root matrix for RMa NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The parameter K is ignored.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 73 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_RMa_O2I

std::array<std::array<double, 6>, 6> ns3::sqrtC_RMa_O2I
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0},
{0, 0, 1, 0, 0, 0},
{0, 0, -0.7, 0.714143, 0, 0},
{0, 0, 0.66, -0.123225, 0.741091, 0},
{0, 0, 0.47, 0.152631, -0.393194, 0.775373},
}}

The square root matrix for RMa O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 2 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 90 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMa_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_UMa_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0, 1, 0, 0, 0, 0, 0},
{-0.4, -0.4, 0.824621, 0, 0, 0, 0},
{-0.5, 0, 0.242536, 0.83137, 0, 0, 0},
{-0.5, -0.2, 0.630593, -0.484671, 0.278293, 0, 0},
{0, 0, -0.242536, 0.672172, 0.642214, 0.27735, 0},
{-0.8, 0, -0.388057, -0.367926, 0.238537, -3.58949e-15, 0.130931},
}}

The square root matrix for UMa LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 107 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMa_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_UMa_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.4, 0.916515, 0, 0, 0, 0},
{-0.6, 0.174574, 0.78072, 0, 0, 0},
{0, 0.654654, 0.365963, 0.661438, 0, 0},
{0, -0.545545, 0.762422, 0.118114, 0.327327, 0},
{-0.4, -0.174574, -0.396459, 0.392138, 0.49099, 0.507445},
}}

The square root matrix for UMa NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The parameter K is ignored.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 126 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMa_O2I

std::array<std::array<double, 6>, 6> ns3::sqrtC_UMa_O2I
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.5, 0.866025, 0, 0, 0, 0},
{0.2, 0.57735, 0.791623, 0, 0, 0},
{0, 0.46188, -0.336861, 0.820482, 0, 0},
{0, -0.69282, 0.252646, 0.493742, 0.460857, 0},
{0, -0.23094, 0.16843, 0.808554, -0.220827, 0.464515},
}}

The square root matrix for UMa O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 143 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMi_LOS

std::array<std::array<double, 7>, 7> ns3::sqrtC_UMi_LOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0, 0},
{0.5, 0.866025, 0, 0, 0, 0, 0},
{-0.4, -0.57735, 0.711805, 0, 0, 0, 0},
{-0.5, 0.057735, 0.468293, 0.726201, 0, 0, 0},
{-0.4, -0.11547, 0.805464, -0.23482, 0.350363, 0, 0},
{0, 0, 0, 0.688514, 0.461454, 0.559471, 0},
{0, 0, 0.280976, 0.231921, -0.490509, 0.11916, 0.782603},
}}

The square root matrix for UMi LOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 160 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMi_NLOS

std::array<std::array<double, 6>, 6> ns3::sqrtC_UMi_NLOS
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.7, 0.714143, 0, 0, 0, 0},
{0, 0, 1, 0, 0, 0},
{-0.4, 0.168034, 0, 0.90098, 0, 0},
{0, -0.70014, 0.5, 0.130577, 0.4927, 0},
{0, 0, 0.5, 0.221981, -0.566238, 0.616522},
}}

The square root matrix for UMi NLOS, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The parameter K is ignored.

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 179 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ sqrtC_UMi_O2I

std::array<std::array<double, 6>, 6> ns3::sqrtC_UMi_O2I
staticconstexpr
Initial value:
= {{
{1, 0, 0, 0, 0, 0},
{-0.5, 0.866025, 0, 0, 0, 0},
{0.2, 0.57735, 0.791623, 0, 0, 0},
{0, 0.46188, -0.336861, 0.820482, 0, 0},
{0, -0.69282, 0.252646, 0.493742, 0.460857, 0},
{0, -0.23094, 0.16843, 0.808554, -0.220827, 0.464515},
}}

The square root matrix for UMi O2I, which is generated using the Cholesky decomposition according to table 7.5-6 Part 1 and follows the order of [SF, K, DS, ASD, ASA, ZSD, ZSA].

The Matlab file to generate the matrices can be found in https://github.com/nyuwireless-unipd/ns3-mmwave/blob/master/src/mmwave/model/BeamFormingMatrix/SqrtMatrix.m

Definition at line 196 of file three-gpp-channel-model.cc.

Referenced by ns3::ThreeGppChannelModel::GetThreeGppTable().

◆ SRS_ENTRIES

const uint8_t ns3::SRS_ENTRIES = 9
static

◆ SU_STA_ID

◆ SWAPPED_MAGIC

const uint32_t ns3::SWAPPED_MAGIC = 0xd4c3b2a1

Looks this way if byte swapping is required.

Definition at line 34 of file pcap-file.cc.

Referenced by ns3::PcapFile::ReadAndVerifyFileHeader().

◆ TABLED_BASED_ERROR_MODEL_PRECISION

const double ns3::TABLED_BASED_ERROR_MODEL_PRECISION = 1e-5
static

precision for PER

Definition at line 29 of file table-based-error-rate-model.cc.

Referenced by ns3::TableBasedErrorRateModel::DoGetChunkSuccessRate().

◆ TCP_PROT_NUMBER

const uint8_t ns3::TCP_PROT_NUMBER = 6

TCP Protocol number.

Definition at line 21 of file ipv4-flow-classifier.cc.

Referenced by ns3::Ipv4FlowClassifier::Classify(), and ns3::Ipv6FlowClassifier::Classify().

◆ TdBetType0AllocationRbg

const int ns3::TdBetType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

TDBET type 0 allocation RBG.

Definition at line 30 of file tdbet-ff-mac-scheduler.cc.

Referenced by ns3::TdBetFfMacScheduler::GetRbgSize().

◆ TdMtType0AllocationRbg

const int ns3::TdMtType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

TDMT type 0 allocation RBG.

Definition at line 30 of file tdmt-ff-mac-scheduler.cc.

Referenced by ns3::TdMtFfMacScheduler::GetRbgSize().

◆ TdTbfqType0AllocationRbg

const int ns3::TdTbfqType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

TDTBFQ type 0 allocation RBG.

Definition at line 31 of file tdtbfq-ff-mac-scheduler.cc.

Referenced by ns3::TdTbfqFfMacScheduler::GetRbgSize().

◆ TOLERANCE

◆ TransportBlockSizeTable

const int ns3::TransportBlockSizeTable[110][27]
static

Table of number of physical resource blocks (NPRB), TBS index (ITBS), and their associated transport block size.

Taken from 3GPP TS 36.213 v8.8.0 Table 7.1.7.2.1-1: Transport block size table (dimension 27×110).

Note
For NPRB = 1 and ITBS = 6 the standard returns 328, but it is not consistent with the other values, therefore we use 88 obtained by following the sequence of NPRB = 1 values.

Definition at line 118 of file lte-amc.cc.

Referenced by ns3::LteAmc::GetDlTbSizeFromMcs(), and ns3::LteAmc::GetUlTbSizeFromMcs().

◆ TtaType0AllocationRbg

const int ns3::TtaType0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

TTA type 0 allocation RBG.

Definition at line 30 of file tta-ff-mac-scheduler.cc.

Referenced by ns3::TtaFfMacScheduler::GetRbgSize().

◆ Type0AllocationRbg [1/2]

const int ns3::Type0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

Type 0 RBG allocation.

Definition at line 22 of file lte-ffr-algorithm.cc.

Referenced by ns3::LteEnbPhy::DoSetBandwidth(), ns3::LteUePhy::DoSetDlBandwidth(), ns3::LteFfrAlgorithm::GetRbgSize(), and ns3::RrFfMacScheduler::GetRbgSize().

◆ Type0AllocationRbg [2/2]

const int ns3::Type0AllocationRbg[4]
static
Initial value:
= {
10,
26,
63,
110,
}

Type 0 allocation RBG.

Definition at line 31 of file rr-ff-mac-scheduler.cc.

◆ UDP_PROT_NUMBER

const uint8_t ns3::UDP_PROT_NUMBER = 17

UDP Protocol number.

Definition at line 22 of file ipv4-flow-classifier.cc.

Referenced by ns3::Ipv4FlowClassifier::Classify(), and ns3::Ipv6FlowClassifier::Classify().

◆ UE_MEASUREMENT_REPORT_DELAY

const Time ns3::UE_MEASUREMENT_REPORT_DELAY = MicroSeconds(1)

Artificial delay of UE measurements procedure.

i.e. the period between the time layer-1-filtered measurements from PHY layer is received and the earliest time the actual measurement report submission to the serving cell is invoked.

This delay exists because of racing condition between several UE measurements functions which happen to be scheduled at the same time. The delay ensures that:

  • measurements (e.g., layer-3 filtering) are always performed before reporting, thus the latter always use the latest measured RSRP and RSRQ; and
  • time-to-trigger check is always performed before the reporting, so there would still be chance for it to cancel the reporting if necessary.

Definition at line 35 of file lte-ue-rrc.cc.

Referenced by ns3::LteUeRrc::VarMeasReportListAdd().

◆ UL_DATA_DURATION

const Time ns3::UL_DATA_DURATION = NanoSeconds(1e6 - 71429 - 1)
static

Duration of the data portion of a UL subframe.

Equals to "TTI length - 1 symbol length for SRS - margin". The margin is 1 nanosecond and is intended to avoid overlapping simulator events. The duration of one symbol is TTI/14 (rounded). In other words, duration of data portion of UL subframe = 1 ms * (13/14) - 1 ns.

Definition at line 48 of file lte-ue-phy.cc.

Referenced by ns3::LteUePhy::SubframeIndication().

◆ UL_SRS_DELAY_FROM_SUBFRAME_START

const Time ns3::UL_SRS_DELAY_FROM_SUBFRAME_START = NanoSeconds(1e6 - 71429)
static

Delay from subframe start to transmission of SRS.

Equals to "TTI length - 1 symbol for SRS".

Definition at line 54 of file lte-ue-phy.cc.

Referenced by ns3::LteUePhy::SubframeIndication().

◆ UL_SRS_DURATION

const Time ns3::UL_SRS_DURATION = NanoSeconds(71429 - 1)
static

duration of SRS portion of UL subframe = 1 symbol for SRS -1ns as margin to avoid overlapping simulator events

Definition at line 37 of file lte-spectrum-phy.cc.

Referenced by ns3::LteSpectrumPhy::StartTxUlSrsFrame().

◆ UNINITIALIZED

uint32_t ns3::UNINITIALIZED = 0x66666666U
staticconstexpr

Value of a not-yet-initialized IPv4 address, corresponding to 102.102.102.102.

This is totally arbitrary.

Definition at line 144 of file ipv4-address.cc.

◆ VERSION

const uint8_t ns3::VERSION = 2
static

GTPv2-C protocol version number.

Definition at line 21 of file epc-gtpc-header.cc.

Referenced by ns3::PbbPacket::PbbPacket(), ns3::GtpcHeader::PreSerialize(), and ns3::PbbPacket::Serialize().

◆ VERSION_MAJOR

const uint16_t ns3::VERSION_MAJOR = 2

Major version of supported pcap file format.

Definition at line 40 of file pcap-file.cc.

Referenced by ns3::PcapFile::Init(), and ns3::PcapFile::ReadAndVerifyFileHeader().

◆ VERSION_MINOR

const uint16_t ns3::VERSION_MINOR = 4

Minor version of supported pcap file format.

Definition at line 41 of file pcap-file.cc.

Referenced by ns3::PcapFile::Init(), and ns3::PcapFile::ReadAndVerifyFileHeader().

◆ WAIT_FOR_RXSTART_DELAY_USEC

uint8_t ns3::WAIT_FOR_RXSTART_DELAY_USEC = 52
staticconstexpr

Additional time (exceeding 20 us) to wait for a PHY-RXSTART.indication when the PHY is decoding a PHY header.

Values for aRxPHYStartDelay:

  • OFDM : 20 us (for 20 MHz) [Table 17-21 of 802.11-2020]
  • ERP-OFDM : 20 us [Table 18-5 of 802.11-2020]
  • HT : 28 us (HT-mixed), 24 us (HT-greenfield) [Table 19-25 of 802.11-2020]
  • VHT : 36 + 4 * max N_VHT-LTF + 4 = 72 us [Table 21-28 of 802.11-2020]
  • HE : 32 us (for HE SU and HE TB PPDUs) 32 + 4 * N_HE-SIG-B us (for HE MU PPDUs) [Table 27-54 of 802.11ax-2021]
  • EHT : 32 us (for EHT TB PPDUs) 32 + 4 * N_EHT-SIG us (for EHT MU PPDUs) [Table 36-70 of 802.11be D3.2]

Definition at line 49 of file eht-frame-exchange-manager.cc.

Referenced by ns3::EhtFrameExchangeManager::TxopEnd().

◆ WHOLE_WIFI_SPECTRUM

FrequencyRange ns3::WHOLE_WIFI_SPECTRUM = {2401, 7125}
constexpr

Identifier for the frequency range covering the whole wifi spectrum.

Definition at line 357 of file wifi-spectrum-value-helper.h.

Referenced by ns3::YansWifiPhy::GetCurrentFrequencyRange().

◆ WIFI_DEFAULT_EHT_MAX_NSS

uint8_t ns3::WIFI_DEFAULT_EHT_MAX_NSS = 1
constexpr

Default max Tx/Rx NSS.

Definition at line 31 of file eht-operation.h.

Referenced by ns3::EhtOperation::EhtOperation().

◆ WIFI_DEFAULT_EHT_OP_DIS_SUBCH_BM_PRESENT

uint8_t ns3::WIFI_DEFAULT_EHT_OP_DIS_SUBCH_BM_PRESENT = 0
constexpr

Default Disabled Subch Bitmap Present.

Definition at line 37 of file eht-operation.h.

◆ WIFI_DEFAULT_EHT_OP_INFO_PRESENT

uint8_t ns3::WIFI_DEFAULT_EHT_OP_INFO_PRESENT = 0
constexpr

Default EHT Operation Info Present.

Definition at line 35 of file eht-operation.h.

◆ WIFI_DEFAULT_EHT_OP_PE_DUR

uint8_t ns3::WIFI_DEFAULT_EHT_OP_PE_DUR = 0
constexpr

Default PE Duration.

Definition at line 39 of file eht-operation.h.

◆ WIFI_DEFAULT_GRP_BU_EXP

uint8_t ns3::WIFI_DEFAULT_GRP_BU_EXP = 0
constexpr

Default Group Addressed BU Exponent.

Definition at line 43 of file eht-operation.h.

◆ WIFI_DEFAULT_GRP_BU_IND_LIMIT

uint8_t ns3::WIFI_DEFAULT_GRP_BU_IND_LIMIT = 0
constexpr

Default Group Addressed BU Indication Limit.

Definition at line 41 of file eht-operation.h.

◆ WIFI_EHT_BASIC_MCS_NSS_SET_SIZE_B

uint16_t ns3::WIFI_EHT_BASIC_MCS_NSS_SET_SIZE_B = 4
constexpr

IEEE 802.11be D2.0 Figure 9-1002ai.

Definition at line 29 of file eht-operation.h.

Referenced by ns3::EhtOperation::EhtBasicMcsNssSet::Deserialize(), and ns3::EhtOperation::GetInformationFieldSize().

◆ WIFI_EHT_DISABLED_SUBCH_BM_SIZE_B

uint16_t ns3::WIFI_EHT_DISABLED_SUBCH_BM_SIZE_B = 2
constexpr

IEEE 802.11be D2.0 Figure 9-1002c.

Definition at line 27 of file eht-operation.h.

Referenced by ns3::EhtOperation::EhtOpInfo::Deserialize(), and ns3::EhtOperation::GetInformationFieldSize().

◆ WIFI_EHT_MAX_MCS_INDEX

uint8_t ns3::WIFI_EHT_MAX_MCS_INDEX = 13
constexpr

◆ WIFI_EHT_MAX_NSS_CONFIGURABLE

uint8_t ns3::WIFI_EHT_MAX_NSS_CONFIGURABLE = 8
constexpr

Max NSS configurable, 802.11be D2.0 Table 9-401m.

Definition at line 33 of file eht-operation.h.

Referenced by GetMaxNss(), SetMaxNss(), ns3::EhtOperation::SetMaxRxNss(), and ns3::EhtOperation::SetMaxTxNss().

◆ WIFI_EHT_OP_INFO_BASIC_SIZE_B

uint16_t ns3::WIFI_EHT_OP_INFO_BASIC_SIZE_B = 3
constexpr

IEEE 802.11be D2.0 Figure 9-1002c.

Definition at line 25 of file eht-operation.h.

Referenced by ns3::EhtOperation::EhtOpInfo::Deserialize(), and ns3::EhtOperation::GetInformationFieldSize().

◆ WIFI_EHT_OP_PARAMS_SIZE_B

uint16_t ns3::WIFI_EHT_OP_PARAMS_SIZE_B = 1
constexpr

IEEE 802.11be D2.0 Figure 9-1002b.

Definition at line 23 of file eht-operation.h.

Referenced by ns3::EhtOperation::EhtOpParams::Deserialize(), and ns3::EhtOperation::GetInformationFieldSize().

◆ WIFI_IE_ELEMENT_ID_EXT_SIZE

uint8_t ns3::WIFI_IE_ELEMENT_ID_EXT_SIZE = 1
constexpr

Size in bytes of the Element ID Extension field (IEEE 802.11-2020 9.4.2.1 General)

Definition at line 20 of file wifi-information-element.h.

Referenced by ns3::EhtOperation::GetInformationFieldSize(), and ns3::TidToLinkMapping::GetInformationFieldSize().

◆ WIFI_LINK_MAPPING_PRESENCE_IND_SIZE_B

uint16_t ns3::WIFI_LINK_MAPPING_PRESENCE_IND_SIZE_B = 1
constexpr

size in bytes of the Link Mapping Presence Indicator field (IEEE 802.11be D2.0 9.4.2.314)

Definition at line 31 of file tid-to-link-mapping-element.h.

Referenced by ns3::TidToLinkMapping::Control::GetSubfieldSize().

◆ WIFI_LINKID_UNDEFINED

uint8_t ns3::WIFI_LINKID_UNDEFINED = 0xff
staticconstexpr

◆ WIFI_MAC_FCS_LENGTH

◆ WIFI_MAX_NUM_HE_SIGB_CONTENT_CHANNELS

size_t ns3::WIFI_MAX_NUM_HE_SIGB_CONTENT_CHANNELS = 2
constexpr

HE SIG-B Content Channels.

Definition at line 28 of file he-ppdu.h.

◆ WIFI_SPECTRUM_2_4_GHZ

FrequencyRange ns3::WIFI_SPECTRUM_2_4_GHZ = {2401, 2483}
constexpr

◆ WIFI_SPECTRUM_5_GHZ

FrequencyRange ns3::WIFI_SPECTRUM_5_GHZ = {5170, 5915}
constexpr

◆ WIFI_SPECTRUM_6_GHZ

FrequencyRange ns3::WIFI_SPECTRUM_6_GHZ = {5945, 7125}
constexpr

Identifier for the frequency range covering the wifi spectrum in the 6 GHz band.

Definition at line 366 of file wifi-spectrum-value-helper.h.

Referenced by SpectrumWifiPhyInterfacesHelperTest::DoRun(), EmlsrOperationsTestBase::DoSetup(), MultiLinkOperationsTestBase::DoSetup(), and SpectrumWifiPhyMultipleInterfacesTest::DoSetup().

◆ WIFI_TID_TO_LINK_MAPPING_ANY_LINK_SET

auto ns3::WIFI_TID_TO_LINK_MAPPING_ANY_LINK_SET
staticconstexpr
Initial value:
=
WifiTidToLinkMappingNegSupport::ANY_LINK_SET
Deprecated
"Deprecated in ns-3.42: " "Use WifiTidToLinkMappingNegSupport::ANY_LINK_SET instead"

Definition at line 56 of file eht-configuration.h.

◆ WIFI_TID_TO_LINK_MAPPING_CONTROL_BASIC_SIZE_B

uint16_t ns3::WIFI_TID_TO_LINK_MAPPING_CONTROL_BASIC_SIZE_B
constexpr
Initial value:
=
1

size in bytes of the TID-To-Link Control field with default link mapping

Definition at line 28 of file tid-to-link-mapping-element.h.

Referenced by ns3::TidToLinkMapping::Control::GetSubfieldSize().

◆ WIFI_TID_TO_LINK_MAPPING_NOT_SUPPORTED

auto ns3::WIFI_TID_TO_LINK_MAPPING_NOT_SUPPORTED
staticconstexpr
Initial value:
=
WifiTidToLinkMappingNegSupport::NOT_SUPPORTED

Deprecated link mapping support enums.

Use WifiTidToLinkMappingNegSupport class enum values instead.

Deprecated
"Deprecated in ns-3.42: " "Use WifiTidToLinkMappingNegSupport::NOT_SUPPORTED instead"

Definition at line 50 of file eht-configuration.h.

◆ WIFI_TID_TO_LINK_MAPPING_SAME_LINK_SET

auto ns3::WIFI_TID_TO_LINK_MAPPING_SAME_LINK_SET
staticconstexpr
Initial value:
=
WifiTidToLinkMappingNegSupport::SAME_LINK_SET
Deprecated
"Deprecated in ns-3.42: " "Use WifiTidToLinkMappingNegSupport::SAME_LINK_SET instead"

Definition at line 53 of file eht-configuration.h.

◆ WIFI_TU

const Time ns3::WIFI_TU = MicroSeconds(WIFI_TU_US)

Wi-Fi Time Unit (see IEEE 802.11-2020 sec. 3.1)

Definition at line 22 of file wifi-utils.cc.

Referenced by ns3::ApWifiMac::GetFilsDiscovery(), and WifiFilsFrameTestBuildCase().

◆ WIFI_TU_US

int ns3::WIFI_TU_US = 1024
constexpr

Wi-Fi Time Unit value in microseconds (see IEEE 802.11-2020 sec.

3.1) Used to initialize WIFI_TU

Definition at line 190 of file wifi-utils.h.

◆ wifiAcList

◆ wifiStandards

const std::map< WifiStandard, std::list< WifiPhyBand > > ns3::wifiStandards
Initial value:
= {
{WIFI_STANDARD_80211b, {WIFI_PHY_BAND_2_4GHZ}},
}
@ WIFI_STANDARD_80211a
@ WIFI_STANDARD_80211ad
@ WIFI_STANDARD_80211p
@ WIFI_STANDARD_80211be
@ WIFI_STANDARD_80211n
@ WIFI_STANDARD_80211g
@ WIFI_STANDARD_80211ax
@ WIFI_STANDARD_80211ac
@ WIFI_PHY_BAND_6GHZ
The 6 GHz band.
@ WIFI_PHY_BAND_2_4GHZ
The 2.4 GHz band.
@ WIFI_PHY_BAND_60GHZ
The 60 GHz band.
@ WIFI_PHY_BAND_5GHZ
The 5 GHz band.

map a given standard configured by the user to the allowed PHY bands

Definition at line 14 of file wifi-standards.cc.

Referenced by ns3::WifiPhyOperatingChannel::FindFirst().