Namespace List

Here is a list of all documented namespaces with brief descriptions:

[detail level 12345]

►Nsparta	Macros for handling exponential backoff
►Napp	Sparta Application framework
CArchNodeConfigFileApplicator	Applies an architectural configuration (parameter defaults) to a virtual parameter tree. This does not support applying, only applyUnbound
CBacktrace	Backtrace printer. Registers a handler for certain fatal signals and dumps the backtrace if they occur
CBacktraceData	Backtrace without line information. Can be rendered out when needed because rendering is slow
CCommandLineSimulator	Command line simulator front-end class with argument parsing Works in conjunction with sparta::app::Simulation
►CConfigApplicator	Base class for applying parameters or configuration files to the simulator device tree. Contains a parameter or configuration file "action" to be applied to a tree
CApplyFilter	Represents a filter for applying parameters based on tree location
CDefaultValues	Optional default values for the simulator which can be customized and provided by anyone instantiating the simulator at construction-time
►CFeatureConfiguration	Collection of named feature values
CFeatureOptions
CLoggingTrigger	Trigger for strating logging given a number of tap descriptors
CMetaTreeNode
►CMultiDetailOptions	Class for containing multiple levels of boost program options
COptAdder	Helper class for chained calls to add_options
Cnamed_value_parser	Parser helper for named_value_type
Cnamed_value_parser< int16_t >	Named_value_parser specialization for int16_t
Cnamed_value_parser< int32_t >	Named_value_parser specialization for int32_t
Cnamed_value_parser< int64_t >	Named_value_parser specialization for int64_t
Cnamed_value_parser< int8_t >	Named_value_parser specialization for int8_t
Cnamed_value_parser< uint16_t >	Named_value_parser specialization for uint16_t
Cnamed_value_parser< uint32_t >	Named_value_parser specialization for uint32_t
Cnamed_value_parser< uint64_t >	Named_value_parser specialization for uint64_t
Cnamed_value_parser< uint8_t >	Named_value_parser specialization for uint8_t
Cnamed_value_type	Helper class for populating boost program options
CNodeConfigFileApplicator	Applies a configuration file to a node pattern
CParameterApplicator	Applies a value to a parameter node pattern
CParameterDefaultApplicator	Applies a new default value to a parameter node pattern
CParameterTemplate	ParameterTemplate providing factory implementation for each data type
CPipelineTrigger	Trigger used to enable/disable Pipeline colletion
CReportConfiguration	Configuration applicator class that is used for configuring a simulator's reports. Works in conjunction with sparta::app::ReportDescriptorCollection
CReportDescriptor	Describes one or more report to instantiate
CReportDescriptorCollection	This collection of ReportDescriptors is designed to never deallocate memory once it has been allocated. References returned by the 'getDescriptorByName()' method are guaranteed to be valid for the life of this collection object
►CSimulation	Simulator which builds a sparta DeviceTree
CSimulationController	This class is used for simulation control callbacks
CSimulationConfiguration	Configuration applicator class that is used for configuring a simulator. Works in conjunction with sparta::app::Simulation
Nexp_backoff	Contains utilities and types of exponential backoff helpers
►Nlog	Diagnostic logging framework. This node generates logging messages of a specific category
CBasicFormatter	Formatter including only a few bits of the most relevant message information
Ccategories
CDefaultFormatter	Formatter that writes most message information, but excludes thread/sequence
CDestination	Generic Logging destination stream interface which writes sparta::log::Message structures to some output [file]stream. Subclasses will implement stream I/O based on construction arguments
CDestinationInstance	A destination where log messages go to be written to a file or other ostream. Attempts to prevent duplicate messages from being written to the same output even if logged through mutliple taps
CDestinationInstance< std::ostream >	Logging Destination for an already-open ostream
CDestinationInstance< std::string >	Destination that opens and writes to a file with a format based on the file extension of the filename given during construction
CDestinationManager	Manages a set of destinations representing files or streams. All log messages will be written to at least one destination in this object
►CFormatter	File writer formatting interface. Subclsases can format for different file types (e.g. raw log, html, sql, etc.)
CInfo	Formatter type description. Used in a table to describe various formatter sublasses
CMessage	Contains a logging message header and content
CMessageInfo	Logging Message information excluding actual message content
►CMessageSource	Message source object associated with a sparta TreeNode through which messages can be sent
CLogObject	Temporary object for constructing a log message with a ostream-like interface. Emits a message to the message source upon destruction
CRawFormatter	Formatter including no meta-data from the message
CTap	Logging Tap. Attach to a TreeNode to intercept logging messages from any NotificationSource nodes in the subtree of that node (including the node itself)
CTapAddedEvent
CTapDescriptor	Describes a tap
CTapRemovedEvent
CVerboseFormatter	Formatter that writes all message information
►Nmemory	Namespace containing memory interfaces, types, and storage objects
CBlockingMemoryIF	Pure-virtual memory interface which represents a simple, immediately accessible (blocking) address-space with meaningful read and write accees support. Partially implements DebugMemoryIF, which adds peek and poke support as well as access addr and size validation
►CBlockingMemoryIFNode	Pure-virtual memory interface that builds on the BlockingMemoryIF, acting as a TreeNode in the SPARTA device tree through which clients such as tools and UIs can discover and interact with the interface. Includes SPARTA Tree notification support, and sparta::Counter representation of access statistics
CPostWriteAccess	Structure containing data for a Memory post-write notification
CReadAccess	Structure containing data for a Memory pre- or post-read notification
CBlockingMemoryObjectIFNode	BlockingMemoryIFNode implementation with binding to a MemoryObject instantiated separately and specified at BlockingMemoryObjectIFNode construction
►CDebugMemoryIF	Memory interface which represents a simple, immediately accessible (blocking) address-space with support for peek and poke acceeses having no side effects other than changing the desired memory
CAccessWindow	Defines an access window within this interface. Accesses through a memory interface are constrained to this window
CDMIBlockingMemoryIF	Class that provides a BlockingMemoryIF over a raw pointer
CMemoryAccessError	Indicates that there was an issue accessing a SPARTA memory object or interface
CMemoryObject	Memory object with sparse storage for large memory representations. Has direct read/write interface within blocks. Checkpointable
CMemoryPeekError	Error while attempting to peek some memory object or interface
CMemoryPokeError	Error while attempting to poke some memory object or interface
CMemoryReadError	Error while attempting to read some memory object or interface
CMemoryTranslationError	Indicates that there was an issue translating an address in the SPARTA framework
CMemoryWriteError	Error while attempting to write some memory object or interface
►CSimpleMemoryMap	Memory mapping object which maps addresses onto block-aligned destinations, each of which is a BlockingMemoryIF object. This method does not actually support memory accesses, only mapping and querying
CMapping	Represents a mapping between an input address and output address for use in a destination BlockingMemoryIF
CSimpleMemoryMapNode	Memory mapping object which implements BlockingMemoryIFNode. Supports a simple mapping of incoming addresses to addresses within a set of destination BlockingMemoryIFs
CTranslation	An older class used to help in encapsulate read/virtual addresses
CTranslationIF	Blocking translation interface with 1:1 translation unless subclassed
CTranslationIFNode	TranslationIF extension that builds on TranslastionIF, acting as a TreeNode in the SPARTA device tree through which clients such as tools and UIs can discover and interact with the interface
►Nstatistics	Namespace containing methods for computing and generating statistical information using instrumentation extracted from sparta structures such as Counters
►Nexpression	Namespace containing methods for parsing, building, and evaluating statistical expressions in sparta
►Ngrammar	Statistical Expression Grammar
CExpressionGrammar
CBinaryFunction	Represents a Binary function node
CConstant
CExpression	Expression container/builder. Contains a single ExpressionNode representing the root of an expression tree. This is the object on which the parser operates to build an expression incrementally through basic operators
CExpressionNode	Abstract interface class for an item in an expression. Subclasses can contain other ExpressionNodes
CExpressionParser	Class for parsing statistical expressions based on a specific TreeNode context
COperation	Operation Node (e.g. +,-,*,/)
CReferenceVariable	Expression node for a reference to a double. Anything that cannot actually vary can be handled as a constant through Expression. If it can vary, however, it should be handled through this or SimVariable (for functions)
CSimVariable	Expression node for a simulation variable. Anything that cannot actually vary within a simulation can be handled as a Constant. If it can vary, however, it should be handled through this
CStatVariable
CTernaryFunction	Represents a Ternary function node
CUnaryFunction	Represents a Unary function node
CArchiveController	Base class used by the RootArchiveNode to have some control over its data source, whether it is a live simulation, or an offline archive (no simulation)
CArchiveDataSeries	Wrapper around a leaf ArchiveNode's data. Owns a back pointer to the top RootArchiveNode in its tree, which it uses to synchronize the data source and data sink with every call to its data access APIs
CArchiveDispatcher	This class holds exactly one generic ArchiveSource, and any number of generic ArchiveSink's
CArchiveNode	When a simulation is configured to archive its statistics values, it will build a subset of its device tree to organize the statistics. The analogy is that a TreeNode is loosely the same as an ArchiveNode:
CArchiveSink	Generic statistic sink base class for report archives
CArchiveSource	Generic statistic source base class for report archives
CArchiveStream	Generic statistic stream base class for sources and sinks in the report archive system
CBinaryIArchive	Use a binary archive file as a source of statistics values
CBinaryOArchive	Use a binary archive file as a destination for statistics values
CLiveSimulationArchiveController	Controller used when SPARTA simulations are directly feeding data into a tempdir archive
COfflineArchiveController	Controller used when attaching to an archive outside of any live simulation
CReportStatisticsAggregator	This class is a source of statistics values used by SPARTA simulators. It takes a sparta::Report object and internally creates an archive tree that describes the report's statistics hierarchy
CReportStatisticsArchive	This class coordinates live SPARTA simulations (source) with binary output archives (sink)
CReportStatisticsHierTree	Helper class used to build up a "report statistics hierarchy tree", where the template types are:
CReportStreamNode	In the stream node hierarchy, this class is used wherever we encounter a sparta::Report node, which includes all subreports. This class can turn a Report node into a flattened vector of SI's, which in turn feed their data into our contiguous vector of double values, connected via SnapshotLogger's
CRootArchiveNode	There is one of these root node objects at the top of each report's archive. The hierarchy looks like this:
CSINodeHierarchy	This class serializes a sparta::Report's entire SI tree (node names, parent nodes / child nodes / etc.) into the SINodeHierarchy table in the database object you provide
CSIValuesBuffer	This class helps organize contiguous blocks of SI values. These values are buffered at each report update, and they are organized in the buffer so that individual SI's have their values right next to each other. To illustrate, say we had the following CSV file:
CStatisticInstStreamNode	In the stream node hierarchy, this class is used wherever we encounter a sparta::StatisticInstance leaf node. We make a data vector of size 1, just for our single SI, and connect them together via a SnapshotLogger
CStatisticsArchives	This class owns and coordinates a group of named archives
CStatisticsHierRootNodes	Utility class that holds onto statistics node hierarchies, accessible by a name that you choose
CStatisticSnapshot	User-friendly wrapper around a double reference. This is like a std::reference_wrapper that connects one StatisticInstance with somebody else's double in another data structure. It lets SI's write their double data value directly into a contiguous std::vector sitting on top of the report archive system. This is done for improved performance and overall ease of use - a single std::vector<double> vs. individual StatisticInstance's scattered all over
CStatisticsStreams	Wrapper around the StatisticsHierRootNodes<T> class. This class holds onto root StreamNode's that sit at the top of a report hierarchy. Say we have this hierarchy of two reports:
CStreamController	Stream controller interface. One of these objects will be shared between the simulation's run controller, and the root-level StreamNode's sitting at the top of each one of the simulation's report hierarchies
CStreamNode	When a simulation is configured to stream its statistics values for asynchronous processing, it will build a subset of its device tree to organize the statistics. The resulting hierarchy is made up of report/subreport nodes, and StatisticInstance leaves. StreamNode's represent nodes in this hierarchy, and are designed so that you can stream data out of any node, regardless of where that node lives (could be the root, could be an SI leaf, could be anywhere in the middle)
C__RegisterDefintionSet	Type that holds a set of register definitions
►CArchData	Contains a set of contiguous line of architectural data which can be referred to by any architected object model. When layout() is called, reserves space for each element in a registered set of ArchDataSegment instances at offsets within Lines within the ArchData
CLine	Line object which composes part of an entire ArchData
CArchDataContainer	Container class for any number of ArchData pointers owned externally
CArchDataSegment
►CArray	Array is essentially a fixed size vector, maintains a concept of validity of its indexes, and provides access via stl iteration and general get methods
CArrayIterator	An iterator struct for this array
CAssertContext	Creates a helper traits class for determining whehther a type has a member named getClock
CAssignOnceObject	Object which can only have it's value set once. Throws exception if being set more than once
CAsyncEvent	In a multi-threaded sim environment, this event is used to schedule an event asynchronously
CAudience	Class used maintain a list of sparta::Scheduleable objects; used by observation-type classes
CBasicHistogram
CBaz
Cbit_reference_to_bool	Helper type for converting _Bit_reference types into bool types for the purpose of determining how to lexically cast a string into that type
Cbit_reference_to_bool< typename std::_Bit_reference >
CBoolEnum	The class responsible for handling State<bool> instances and converts bool instances into actual EnumTValueType instances to satisfy exisiting function signatures
Cbounded_int	Bounded integer type with range-checking
CBuffer	A data structure allowing appending at the end, beginning, or middle, but erase anywhere with collapse
CBus	Class that defines a Bus type
CBusSet	A TreeNode that represents a set of Buses
CCircularBuffer	A data structure allowing appending at the end, beginning, or insert in the middle, but erase anywhere with collapse
CClock	A representation of simulated time
CClockManager	Manages building a clock tree
CContextCounter	A container type that allows a modeler to build, store, and charge counts to a specific context
CCounter	Represents a counter of type counter_type (uint64_t). 2 and greater than 0 with a ceiling specified. A ceiling value that is a power of two is optimized to perform operations faster
CCounterBase	The base class for all Counters
CCycleCounter	Represents a cycle counter
CCycleHistogramBase	CycleHistogramBase class for uint64_t values
CCycleHistogramStandalone	CycleHistogramStandalone class for uint64_t values
CCycleHistogramTreeNode	CycleHistogramTreeNode class for uint64_t values
►CDAG
CCycleException
CDataContainer	Used by DataInPort and SyncInPort, this class holds received data from these ports and remembers the time in which the data was set. It also maintains the validity of the data
CDataInPort	DataInPort receives data from sender using a DataOutPort
CDataOutPort	DataOutPort is used for transferring any data to another module
CDataView	View into a backend block of memory in an ArchData
CDynamicResourceTreeNode	TreeNode subclass representing a node in the device tree which creates and owns a resource. This node is created at run-time and, although it takes a parameter set at construction, is not part of the SPARTA configuration phase and is not user configurable through any sparta::ParameterSet
CEnumCycleHistogram	EnumCycleHistogram class for C++ Enum values
CEnumHistogram	EnumHistogram class for sparta::utils::Enum
CEvent	Event is a simple class for scheduling random events on the Scheduler
CEventGroup	Group a series of events together for precedence establishment
CEventNode	EventNode is the base class for all event types in SPARTA. Not to be used by the modeler. Its main purpose is to look for a clock and scheduler for the event
CEventSet	Set of Events that a unit (or sparta::TreeNode, sparta::Resource) contains and are visible through a sparta Tree
CExportedPort	Class that "exports" a port that's contained in the same ResourceTreeNode structure
CExtensionDescriptor	Descriptor class which provides basic information about an extended tree node: device tree location, extension name, and parameter name-values
CExtensionsParamsOnly	Helper class used to trivially extend TreeNode parameter sets (but not any additional functionality beyond that)
CFrontArray	Type of Array with special allocation policies to support writing to the front most valid entry in the Array, as well as reading the nth valid entry in the array
CFunctionManager	Singleton Function Manager class. This class contains two maps and one constant string token. These maps contain a string as key and function pointers as value. The string key is the same as the name of the free functions as defined by the users and the keys are the function pointers to those methods. One map is dedicated for HistogramTreeNodes while the other is dedicated for CycleHistogramTreeNodes. This was necessary because these two classes do not share a common polymorphic base
CFutureStatisticRange	Exception indicating that the range of a StatisticInstance starts or ends in the future (probably caused by to checkpointing)
CGlobalEvent	A type of "global" reusable event
CGlobalEventProxy	A helper class of GlobalEvent
CGlobalOrderingPoint	Used to set precedence between Scheduleable types across simulation
CGlobalTreeNode	TreeNode which represents some "global" namespace of the device tree, containing only RootTreeNodes, for performing searches
CHistogramBase	Histogram base class for uint64_t values
CHistogramStandalone
CHistogramTreeNode
CInPort	Base class for all InPort types
CInstrumentationNode	Base class requiring
CIntParameterSet
Cis_sparta_enum	Detect whether template parameter is sparta::utils::Enum type
Cis_sparta_enum< sparta::utils::Enum< T > >	Detect whether template parameter is sparta::utils::Enum type
Cis_vector	Templated for determining if ValueType is std::vector for use in metaprogramming constructs. This is intended to be be consumed by enable_if
Cis_vector< std::vector< T > >
►CKeyValue	The type-to-type name map. Not really necessary, but useful
CTypeNameVisitor	Visitor class for looking up type name
CLineStringStream	Helper class for building a set of lines through an ostream-like interface
CMemoryProfiler	Utility used to periodically collect heap usage statistics throughout a simulation. Supported phases for inspection include Build, Configure, Bind, and Simulate
CMirrorNotificationSource	Essentially a pass through notification source that is a placeholder in a shadow tree
CNotificationSource	A TreeNode that generates a specific type of notification which propagates up a tree of TreeNodes (using the NotificationPropagator base class
►CNotificationSourceBase	A TreeNode that generates a single specific type of notification which propagates up a tree of TreeNodes using TreeNode's builtin functionality
CObservationStateCallback	Callback for observation-state of a NotificationSourceBase
CObservationStateCallbackPrivateInterface	Controlled interface to NotificationSourceBase for regiistering and deregistering observation state change callback objects only
CObjectAllocator
COneWayBool	Boolean with a default capable of being changed to the opposite value only. it can never set to the default even if already at the default value
COutPort	Base class for all OutPort types
CParameter	Parameter instance, templated to contain only a specific type
►CParameterBase	Non-templated base class for generic parameter access and iteration
CParameterValueIterator	Generic value iterator for a SINGLE parameter which represents values ONLY as std::string
CParameterException	Exception indicating a misconfigured Parameter or invalid Parameter access
►CParameterSet	Generic container of Parameters
CParameterSetIterator	Non-const iterator for ParameterSet
►CParameterTree	Virtual Parameter Tree. This represents a tree of parameters read from some source but does not necessarily correspond to the parameters in the simulation itself or even to the simulation tree. This is meant to provide a hierarchical view into simulation parameters before they are actually applied to a real TreeNode tree
►CNode	Node containing a Parameter and value to apply. Can be used to describes a value extracted from the tree when using get or tryGet. This is a copy of the value and is not in any way synchronized with the tree
CMatchIterator
CPayloadEvent	Class to schedule a Scheduleable in the future with a payload, typed on both the data type and the scheduling phase. This is the preferred class to use in simulation, but the main API is found in sparta::PhasedPayloadEvent
CPhasedObject	Object having a specific phase in the sparta construction paradigm
CPhasedPayloadEvent	Class to schedule a Scheduleable in the future with a payload, but the class itself is not typed on the phase, but is constructed with one. The preference, however, is for the modeler to use sparta::PayloadEvent instead
CPhasedSingleCycleUniqueEvent	An event that can only be schedule one cycle into the future
CPhasedUniqueEvent	A type of Event that uniquely schedules itself on the schedule within a single time quantum. This UniqueEvent is not typed on the SchedulingPhase. It is discouraged to use this class – use UniqueEvent templatized on the SchedulingPhase
►CPipe	A very simple pipe, not part of the DES paradigm
CPipeIterator
►CPipeline	A simple pipeline
CPipelineIterator	An iterator class for Pipeline class
CPort	The port interface used to bind port types together and defines a port behavior
CPortSet	A TreeNode that represents a set of ports used by a Resource
CPostRunValidationInfo	Information describing the type of validation being done
CPriorityQueue	A data structure that allows pushing/emplacing into it with a given sorter
Cptr_to_const_obj_ptr	Template type helper that removes a pointer, adds a const, and then re-adds the pointer. This is useful to turn "T" [T=U*] into "U const *" in places where simply using "const T" results in "U* const"
►CQueue	A data structure that allows appending at the back and invalidating from the front
CQueueIterator	Class that alows queue elements to be accessed like a normal stl iterator. Queue iterator is a bidirectional sequential iterator isValid() method checks the validity of the iterator. This method can be used to check if the data in Queue has not yet been popped out Increment, decrement , dereferencing,less than and greater than operations are provided
CReadOnlyCounter	Represents a non-writable and non-observable counter with a very similar interface to sparta::Counter. The value of this counter In most cases, a normal counter should be used. However, if a value must be stored as an integer outside of counter for any reason, a ReadOnly counter can be used to wrap that value and expose it to sparta Report and statistics infrastructure
CRegister	An implementation of a RegisterBase
CRegisterBankTable	Container of register banks as a helper for RegisterSet. Instances of this class will be owned by a single RegisterSet
►CRegisterBase	Base class to represents an architected register of any size that is a power of 2 and greater than 0 with a ceiling specified
CDefinition	Describes an architected Register
►CField	Register Field with masked access to owning register
CDefinition	Field Definition structure
CPostWriteAccess	Structure containing data for a Register post-write notification
CReadAccess	Structure containing data for a Register pre- or post-read notification
CRegisterBits
CRegisterProxy	Represents an interface to a pseudo-"Register" of a fixed size which indirectly references other registers (having the same group num, group idx, and size) depending on simulator state. Essentially, this hides banking and register aliasing (shared data) information from the client of this interface which is useful for presenting debugginer-visible and software-visible registers without regard for the underlying banking or aliasing
►CRegisterProxyBase
CDefinition	Describes a register Proxy
►CRegisterSet	Holds and can create a set of Register objects having various names and groups
CRegisterTypeTag
CResource	The is the base class for all types of resources used by the SPARTA framework
CResourceContainer	PhasedObject which can hold 0 or 1 Resource pointers to an associatedresource. Contains logic for setting and getting the associated Resource
CResourceFactory	Templated ResourceFactoryBase implementation which can be used to trivially define Resource Factories
CResourceFactoryBase	Factory which can create Resources as well as the Parameter sets that can be modified before actually instantiating the resources themselves. Packages providing resources to the simulator implement this interface
CResourceSet	Set of published ResourceFactories which can be referenced by name
CResourceTreeNode	TreeNode subclass representing a node in the device tree which contains a single ResourceFactory and a sparta::ParameterSet. A ResourceTreeNode is also associated with a clock
CReversedStatisticRange	Exception indicating that the range of a StatisticInstance was reversed when it was accessed (probably caused by checkpointing)
CRootTreeNode	TreeNode which represents the root ("top") of a device tree
►CScheduleable	A class that defines the basic scheduling interface to the Scheduler. Not intended to be used by modelers directly, but certainly can be
CPrecedenceSetup	An internal class used in Scheduleble to cache a pointer to the scheduler
CScheduleableHandle	A light-weight reference counting handle for Scheduleables – DOES NOT delete
CScheduler	A class that lets you schedule events now and in the future
►CScoreboard	Class used to track operand dependencies (timed) between units
CScoreboardParameters
CScoreboardView	A ScoreboardView is a view into the master Scoreboard for operand readiness
CSharedData	Class that allows the writing of data this cycle, but not visable until next cycle
CSignalInPort	SignalInPort receives data from sender using a SignalOutPort
CSignalOutPort	SignalOutPort is used for transferring a simple signal to another module
CSimulationInfo	Contains information describing the simulation instance for the purpose of identifying the simulation and possible recreating it. This information should be written to all log files, reports, cmdline, etc
CSingleCycleUniqueEvent	An event that can only be schedule one cycle into the future
CSpartaCriticalError	Indicates something went seriously wrong and likely indicates corruption in simulator runtime state
CSpartaException	Used to construct and throw a standard C++ exception. Inherits from std::exception
CSpartaFatalError	Indicates something went seriously wrong and likely indicates unrecoverable corruption in simulator runtime state or misuse. This is the only exception that should ever be generated by a destructor since its semantics are that the simulation should terminate
CSpartaSharedPointer	Used for garbage collection, will delete the object it points to when all objects are finished using it
CSpartaSharedPointerAllocator	A memory allocator complementing SpartaSharedPointer that reuses old memory
CSpartaStaticInitializer	Static-initialization order controller
CSpartaTester	A simple testing class
CSpartaWeakPointer	Like in STL, create a weak pointer to a SpartaSharedPointer
CStartupEvent	StartupEvent is a simple class for scheduling a starting event on the Scheduler. It does not support precedence
►CState	The State class for watching transition between enum states
CMarker	Class that will mark the state for transition
CMonitor	Monitor a particular State value and allow the user to determine a full state change
CState< T, typename std::enable_if< std::is_same< T, PhasedObject::TreePhase >::value >::type >
CStateHistogram	StateHistogram class for uint64_t values
►CStateTimerUnit	A high level wrapper contains the StateTimerPool and StateTimerHistogram
CStateTimer	The timer that user can access to start/end tracking state. A StateTimer::Handle is returned from StateTimerUnit upon allocation
CStatInstCalculator
►CStatisticDef	Contains a statistic definition (some useful information which can be computed)
CExpressionArg	Intermediate type for minimizing the number of distinct constructors that must be created for this class because any constructor can take an Expression object or a string representing an expression
CPendingSubStatCreationInfo	This helper class serves as a placeholder for substatistic creation
CStatisticInstance	Instance of either a StatisticDef or CounterBase or an Expression. Has a sample window (simulator ticks) over which it will compute the value of the contained expression/counter for that range
CStatisticSet	Set of StatisticDef and CounterBase-derived objects for visiblility through a sparta Tree
CStringManager	Manages string internment for SPARTA. This allows strings to be compared by pointer once interned
CSyncInPort	Class that defines an synchronized input port on modules on two different clocks
CSyncOutPort	Class that defines a synchronized SyncOutPort for data writes on different clocks
CSysCSpartaSchedulerAdapter	Class that "connects" Sparta to SystemC
CTag	Tag(): Simple class to provide nested sequence numbering
►CTieredMap	N-Tier lookup map for sparse-representation of large memory spaces. This is essentially a M-Tree where the child lookup at each node is a simple offset computed by a rshift and mask
Cconst_iterator	Const for walking contents of this map if const-qualified
Citerator	Iterator for walking contents of this map
CTimeManager	Singleton which manages wall-clock time for simulations in SPARTA This is not a "timer" manager, but rather an information service and could possible become a timing interval manager
►CTreeNode	Node in a composite tree representing a sparta Tree item
CANY_TYPE	Type for indicating that ANY notification source type should be included in a search performed by locateNotificationSources
Cdelegate	Temporary delegate for notificaiton invokation until the implementation is working. This will then be merged with sparta::SpartaHandler
CExtensionsBase	Base class used to extend TreeNode parameter sets
CNotificationInfo	Notification type/name information
Ctype_info_container	Container for std::type_info
CTreeNodePrivateAttorney
CUniqueEvent	A type of Event that uniquely schedules itself on the schedule within a single time quantum. This class is typed on the SchedulingPhase and is the preferred type to use for UniqueEvent use, but the main API is found in PhasedUniqueEvent
CUnit	The is the base class for user defined blocks in simulation
CValidationCheckCallback	Delegate for Parameter validation
CVirtualGlobalTreeNode	Virtual global node for all device trees in a single simulation. This node acts a potential notification observation point for every node in the simulation regardless hierarchy
CWeightedContextCounter	This is an example context counter subclass used to show how users may supply their own "aggregated value calculation" method via the REGISTER_CONTEXT_COUNTER_AGGREGATE_FCN macro