| ▼Ncorelinux | Forward reference the various common classes |
| C_CSAGroupHeader | Describes a CSA semaphore group |
| C_CSAHeader | Describes the tip control block for the Common Storage Area (CSA) |
| C_CSASemaphoreHeader | Describes a CSA semaphore entry |
| CAbstractAllocator | AbstractAllocator is a abstract template which provides for the extension of memory managment on a TypeImpl object by TypeImpl object basis |
| CAbstractCommand | AbstractCommand captures the semantics of the capabilities of commands, which is basically to provide a execution context |
| CAbstractFactory | AbstractFactory provides an interface for creating families of related or dependent objects without specifying their concrete classes |
| CAbstractFactoryException | AbstractFactoryException is the base exception type for AbstractFactory |
| CAbstractSemaphore | A AbstractSemaphore supports the protocol that processes and/or threads agree to follow for the purpose of controlled access to a resource |
| CAbstractString | AbstractString is a temporary base abstraction |
| CAdapter | An Adapter converts the interface of a class into another interface that clients expect |
| CAllocator | Allocator is a Strategy class used by AbstractAllocator and AbstractFactory.Each Allocator instance tracks allocates and deallocates |
| CAllocatorAlreadyExistsException | AllocatorAlreadyExistsException is an exception that is usually thrown when a add of an Allocator collides in a AbstractFactory implementation |
| CAllocatorNotFoundException | AllocatorNotFoundException is an exception that is usually thrown when a AbstractFactory attempts to use a specific Allocator |
| CAssertion | Assertion is-a Exception created when an assertion fails |
| CAssociativeIterator | The AssociativeIterator that extends Iterator to include the interface for describing an associative collection type without exposing its underlying representation |
| CBoundsException | BoundsException is a type of StorageException, characterized when access to a storage object is invalid |
| CBridge | When an abstraction can have one of several possible implementations, the usual way to accommodate them is to use inheritance |
| CBuilder | Builder seperates the construction of a complex object from its representation so that the same construction process can create different representations |
| CColleague | Colleague knows its Mediator object, communicates with its mediator whenever it would have otherwise communicated with another Colleague |
| CCommand | Command captures the semantics of allowing commands to be added as a reverse command type |
| CCommandFrame | CommandFrame builds a unit of work around one or more Commands |
| CCommandFrameException | CommandFrameException is the base exception type for CommandFrame |
| CComponent | A Component declares the interface for the objects in a composition and implements default behavior |
| CCompositeException | CompositeException is the base exception type for Composite |
| CContext | Context defines the interface to clients and maintains an instance of a State subclass |
| CCoreLinuxAssociativeIterator | The CoreLinuxAssociativeIterator provides a way to access the elements of any of the associative STL collections, by defining a CoreLinuxAssociativeIterator with a CORELINUX_COLLECTION nameAssociativeIterator definition, the KeyType and the Element Type |
| CCoreLinuxGuardGroup | A CoreLinuxGuardGroup is an extension to the SemaphoreGroup for creating semaphores for the CoreLinuxGuardPool |
| CCoreLinuxGuardPool | The CoreLinuxGuardPool is a private SemaphoreGroup resource for class objects that require synchronization capability |
| CCoreLinuxIterator | The CoreLinuxIterator provides a way to access the elements of any of the non-associative STL collections |
| CCoreLinuxObject | An CoreLinuxObject is a base class for the library |
| CDecorator | Decorators can attach additional responsibilities to an object dynamically which provide a more flexible alternative to subclassing for extending functionality |
| CEnvironment | Environment is a class utility which encapsulates |
| CEvent | Event provides a type basis for event ontologies |
| CEventSemaphore | EventSemaphore implements a way to queue its caller until a certain event takes place |
| CEventSemaphoreGroup | A EventSemaphoreGroup is an extension to the SemaphoreGroup for creating only EventSemaphore types |
| CException | Exception is the base exception class used in the CoreLinux++ libraries |
| CFacade | Structuring a system into subsystems helps reduce complexity |
| CFlyweight | Flyweight type is used to support large numbers of fine-grained objects |
| CGatewaySemaphore | GatewaySemphore enables a depth of resource indicator |
| CGatewaySemaphoreGroup | A GatewaySemaphoreGroup is an extension to the SemaphoreGroup for creating only GatewaySemaphore types |
| CGuardSemaphore | GuardSemaphore is a special case semaphore for use by the CoreLinuxGuardPool |
| CHandler | Defines an interface for handling requests, accessing successors, and optionally implements the successor link |
| CIdentifier | An Identifier is a abstract representation of identity |
| CInvalidCompositeException | InvalidCompositeException is an exception that is usually thrown when a composite operation is attempted on a leaf component |
| CInvalidIteratorException | InvalidIteratorException is an exception that indicates a Iterator could not be properly formed for some reason |
| CInvalidThreadException | InvalidThreadException describes an exception that is thrown when a operation is attempted on a non-managed thread context |
| CIterator | The Iterator provides a way to access the elements of an collection type sequentially without exposing its underlying representation |
| CIteratorBoundsException | IteratorBoundsException is thrown when a Iterator has position before the begining or past the end positions of its implementation |
| CIteratorException | IteratorException is the base exception type for Iterator |
| CLimits | Limits is to provide information regarding CoreLinux++ scalar types |
| CMediator | Mediator declares an interface for communicating with Colleague objects |
| CMemento | Memento knows its Mediator object, communicates with its mediator whenever it would have otherwise communicated with another Memento |
| CMemory | Memory is high speed transient storage managed by the operating system, for both itself and user processes, used to store data and programs |
| CMemoryStorage | MemoryStorage is type of Storage characterized as transient and high speed |
| CMutexSemaphore | MutexSemaphore implements a mutual exclusion control which can be used to insure that at most one (1) task has access at a time |
| CMutexSemaphoreGroup | A MutexSemaphoreGroup is an extension to the SemaphoreGroup for creating only MutexSemaphore types |
| CNullPointerException | NullPointerException is the base exception type for NullPointer |
| CObserver | Observer observes Subjets and supports the event interface for recieving subject event notifications |
| CPoolDescriptor | PoolDescriptor stores information about the ownership and usage of a semaphore in the pool |
| CPrototype | Specify the kinds of objects to create using a prototypical instance, and create new objects by copying (cloning) this prototype |
| CProxy | Provide a surrogate or placeholder for another object to control access to it |
| CRequest | A Request is used for type identification to a handler object |
| CScalarIdentifier | ScalarIdentifier provides a templated interface for declaring CoreLinux Identifiers for simple scalar types |
| CSemaphore | A Semaphore supports the protocol that processes and/or threads agree to follow for the purpose of controlled access to a resource |
| CSemaphoreCommon | The SemaphoreCommon manages the SemaphoreGroup common storage area |
| CSemaphoreException | SemaphoreException is the base exception type for Semaphore |
| CSemaphoreGroup | A SemaphoreGroup is an extension to the Linux semaphore set |
| CSemaphoreReference | |
| CSingleton | Ensure a class only has one instance, and provide a global point of access to it |
| CState | Allow an object to alter its behavior when its internal state changes |
| CStorage | Storage is the abstract type for anything that can be use to store and read (e.g |
| CStorageException | StorageException is the base exception type for Storage |
| CStrategy | Strategy is a base class for describing families of alogrithms |
| CString | |
| CStringUtf8 | StringUtf8 is a temporary string implementation |
| CSubject | Subject knows its Observer objects, communicates with its observers through event notification |
| ▼CSynchronized | Synchronized is a mixin which allows class objects to enable monitor functionality |
| CGuard | Guard is the automatic instance that insures a lock is not held beyond the scope where it was instantiated |
| CThread | Thread is a framework for the creation, management, and destruction of caller threads |
| CThreadContext | ThreadContext describes the context in which the thread operates |
| CThreadException | ThreadException is the base exception type for Thread |
| CTransientStorage | TransientStorage type is an area of storage that will not be saved across system initializations |
| CTransparentComponent | A TransparentComponent is a templated Component whereas it declares the interface for the objects in a composition, implements default behavior and declares the interface for child operations |
| CVisitor | Represent an operation to be performed on the components of an object structure |