ACE Manual Page Index
This file has been generated from the windex
file from the ACE package and
it contains a list of pointers to the manual pages generated by the
OSE
documentation tools.
- ACE (3) Contains value added ACE methods that extend the behavior of the UNIX and Win32 OS calls.
- ACE_ARGV (3) Transforms a string
buf
into an argv
style vector of strings or an argv
style vector of string buf
, performing environment variable substitutions if necessary.
- ACE_Accept_Strategy (3) Defines the interface for specifying a passive connection acceptance strategy for a SVC_HANDLER.
- ACE_Acceptor (3) Abstract factory for creating a service handler (SVC_HANDLER), accepting into the SVC_HANDLER, and activating the SVC_HANDLER.
- ACE_Activation_Queue (3) Reifies a method into an object. Subclasses typically represent necessary state and behavior.
- ACE_Addr (3) Defines the base class for the "address family independent" address format.
- ACE_Allocator (3) Interface for a dynamic memory allocator that uses inheritance and dynamic binding to provide extensible mechanisms for allocating and deallocating memory.
- ACE_Allocator_Adapter (3) This class is an Adapter that allows the
ACE_Allocator
to use the Malloc
class below.
- ACE_Atomic_Op (3) Transparently parameterizes synchronization into basic arithmetic operations.
- ACE_Bounded_Set (3) Implement a simple unordered set of
T
with maximum set at creation time.
- ACE_Bounded_Stack (3) Implement a generic LIFO abstract data type.
- ACE_CORBA_Handler (3) Handle CORBA requests in conjunction with the ACE ACE_Reactor. Note, do *NOT* inherit from this class! Instead, use the ACE_MT_CORBA_HAndler and ACE_ST_CORBA_Handler as Singletons.
- ACE_CORBA_Ref (3) A wrapper for helping with orbix object references.
- ACE_CString (3) A simple "C String" (ACE_CString) class.
- ACE_Concurrency_Strategy (3) Defines the interface for specifying a concurrency strategy for a SVC_HANDLER.
- ACE_Condition (3) ACE_Condition variable wrapper, which allows threads to block until shared data changes state.
- ACE_Condition_Mutex (3) ACE_Condition variable wrapper written using ACE_Mutexes This allows threads to block until shared data changes state.
- ACE_Condition_Thread_Mutex (3) ACE_Condition variable wrapper written using ACE_Mutexes This allows threads to block until shared data changes state.
- ACE_Connector (3) Generic factory for actively connecting clients and creating service handlers (SVC_HANDLERs).
- ACE_Control_Block (3) This information is stored in memory allocated by the MEMORY_POOL.
- ACE_Creation_Strategy (3) Defines the interface for specifying a creation strategy for a SVC_HANDLER.
- ACE_DEV (3) Defines the member functions for the base class of the ACE_DEV abstraction.
- ACE_DEV_Addr (3) Defines device address family address format.
- ACE_DEV_Connector (3) Defines an active connection factory for the ACE_DEV wrappers.
- ACE_DEV_IO (3) Read/Write operations on Devices.
- ACE_DLL_Strategy (3) Defines the interface for specifying a creation strategy for a SVC_HANDLER based on dynamic linking of the SVC_HANDLER.
- ACE_Dummy_Node (3))
- ACE_Dumpable (3) Base class that defines a uniform interface for all object dumping.
- ACE_Dumpable_Ptr (3)memory object database ACE_ODB. The pointee (if any) is deleted when reassigned.
- ACE_Dynamic (3) Checks to see if a Svc_Handler was dynamically allocated.
- ACE_Dynamic_Node (3) Handle a dynamically linked node.
- ACE_Dynamic_Service (3) Provides a general interface to retrieve arbitrary objects from the ACE service repository.
- ACE_Event_Handler (3) Provides an abstract interface for handling various types of I/O, timer, and signal events.
- ACE_FIFO (3) Abstract base class for UNIX FIFOs (a.k.a. Named Pipes).
- ACE_FIFO_Recv (3) Receiver side of the bytestream C++ wrapper for UNIX FIFOs.
- ACE_FIFO_Recv_Msg (3) Receiver side for the record oriented C++ wrapper for UNIX FIFOs.
- ACE_FIFO_Send (3) Sender side for the bytestream C++ wrapper for UNIX FIFOs
- ACE_FIFO_Send_Msg (3) Sender side for the Record oriented C++ wrapper for UNIX FIFOs.
- ACE_FILE (3) Defines the member functions for the base class of the ACE_FILE abstraction.
- ACE_FILE_Addr (3) Defines the FILE address family address format.
- ACE_FILE_Connector (3) Defines an active connection factory for the ACE_FILE wrappers.
- ACE_FILE_IO (3) Read/Write operations on Files
- ACE_File_Lock (3) A wrapper around the UNIX file locking mechanism.
- ACE_Fixed_Set (3) Implement a simple unordered set of
T
with maximum SIZE
.
- ACE_Fixed_Set_Iterator (3) Interates through an unordered set.
- ACE_Fixed_Stack (3) Implement a generic LIFO abstract data type.
- ACE_Function_Node (3) Keeps track of the symbol name of for a shared function.
- ACE_Future (3) This class implements a ``single write, multiple read'' pattern that can be used to return results from asynchronous method invocations.
- ACE_Future_Rep (3) ACE_Future_Rep
T
- ACE_Get_Opt (3)line arguments.
- ACE_Guard (3) This data structure is meant to be used within a method or function... It performs automatic aquisition and release of a parameterized synchronization object
LOCK
.
- ACE_Handle_Set (3) C++ wrapper for the socket
FD_SET
abstraction.
- ACE_Handle_Set_Iterator (3) Iterator for the ACE_Handle_Set abstraction.
- ACE_Handler_Repository (3) Used to map ACE_HANDLEs onto the appropriate ACE_Event_Handler *.
- ACE_High_Res_Timer (3) A high resolution timer class wrapper that encapsulates Solaris timers.
- ACE_INET_Addr (3) Defines the Internet domain address family address format.
- ACE_IO_Cntl_Msg (3) Data format for IOCTL messages
- ACE_IO_SAP (3) Defines the member functions for the base class of the ACE_IO_SAP abstraction.
- ACE_IPC_SAP (3) Defines the member functions for the base class of the ACE_IPC_SAP abstraction.
- ACE_LSOCK (3) Create a Local ACE_SOCK, which is used for passing file descriptors.
- ACE_LSOCK_Acceptor (3) Defines the format and interface for the acceptor side of the local ACE_SOCK ACE_Stream.
- ACE_LSOCK_CODgram (3) Defines the member functions for the ACE_LSOCK connected datagram abstraction.
- ACE_LSOCK_Connector (3) Defines the format and interface for the connector side of the local ACE_SOCK ACE_Stream.
- ACE_LSOCK_Dgram (3) Create a Local ACE_SOCK datagram.
- ACE_LSOCK_Stream (3) Create a Local ACE_SOCK stream.
- ACE_Lite_MMAP_Memory_Pool (3)weight'' memory pool based
ACE_Mem_Map
.
- ACE_Local_Memory_Pool (3) Make a memory pool that is based on C++ new/delete. This is useful for integrating existing components that use new/delete into the ACE Malloc scheme...
- ACE_Local_Mutex (3) Class that acquires, renews, and releases a synchronization token local to the process.
- ACE_Local_Name_Space (3) Maintaining accesses Local Name Server Database. Allows to add NameBindings, change them, remove them and resolve NameBindings.
- ACE_Local_RLock (3) Class that acquires, renews, and releases a readers lock that is local to the process.
- ACE_Local_WLock (3) Class that acquires, renews, and releases a writer lock that is local to the process.
- ACE_Location_Node (3) Keep track of where a shared library is located.
- ACE_Log_Msg (3) Provides a variable length argument message logging abstraction.
- ACE_Log_Record (3) Defines the structure of an ACE logging record.
- ACE_MMAP_Memory_Pool (3) Make a memory pool that is based on
mmap
(2). This implementation allows memory to be shared between processes.
- ACE_MT_CORBA_Handler (3)threaded CORBA requests in conjunction with the ACE Reactor.
- ACE_MT_SYNCH (3) Implement a default thread safe synchronization wrapper that typedefs the
ACE_Condition
and ACE_Mutex
to the ACE_Condition
and ACE_Mutex
versions. Note that this should be a template, but SunC++ 4.0.1 complains about this...
- ACE_Malloc (3) Define a C++ class that uses parameterized types to provide an extensible mechanism for encapsulating various of dynamic memory management strategies.
- ACE_Malloc_Iterator (3) Iterator for names stored in Malloc'd memory.
- ACE_Map_Iterator (3) Iterator for the ACE_Map_Manager.
- ACE_Map_Manager (3) Define a map abstraction (useful for managing connections and sessions).
- ACE_Mem_Map (3) C++ interface to the mmap(2) UNIX system call.
- ACE_Message_Block (3) Object used to store messages in the ASX framework.
- ACE_Message_Queue (3)safe message queueing facility, modeled after the queueing facilities in System V StreamS.
- ACE_Method_Object (3) Reifies a method into an object. Subclasses typically represent necessary state and behavior.
- ACE_Module (3)directional flow of messages.
- ACE_Module_Type (3) Define the methods for handling
ACE_Modules
.
- ACE_Multiplexor (3)
- ACE_Mutex (3) ACE_Mutex wrapper (valid in same process or across processes (depending on TYPE flag))
- ACE_Mutex_Guard (3) This data structure is meant to be used within a method or function... It performs automatic aquisition and release of an ACE_Mutex.
- ACE_Mutex_Invariants (3) Mutex Invariants
- ACE_Mutex_Token (3) Not a public interface.
- ACE_NS_Internal (3) This class and ACE_NS_String are used as Adapters to work with the Map_Manager.
- ACE_NS_String (3) This class and ACE_NS_Internal are used as Adapters to work with the Map_Manager.
- ACE_NULL_SYNCH (3) Implement a do nothing Synchronization wrapper that typedefs the
ACE_Condition
and ACE_Mutex
to the Null* versions.
- ACE_Name_Node (3) This is stored as a linked list within the Memory_Pool to allow "named memory chunks."
- ACE_Name_Options (3) Manages the options for the ACE Name_Server.
- ACE_Name_Proxy (3) Proxy for dealing with remote server process managing NET_LOCAL NameBindings
- ACE_Name_Reply (3) Message format for delivering replies from the ACE_Name Server.
- ACE_Name_Request (3) Message format for delivering requests to the ACE_Name Server.
- ACE_Name_Server (3) Integrate the various components that implement the ACE_Name Server.
- ACE_Name_Space (3) Abstract base class that provides an abstract interface to the database without exposing any implemenation details.
- ACE_Name_Space_Map (3) This class serves as a Proxy that ensures our process always has the appropriate allocator in place for every operation that accesses or updates the Map Manager.
- ACE_Naming_Context (3) Maintaining accesses Name Server Databases. Allows to add NameBindings, change them, remove them and resolve NameBindings
- ACE_Notification_Handler (3) Callback and unblock the ACE_Reactor if it's sleeping.
- ACE_Null_Condition (3)ops.
- ACE_Null_Condition_Mutex (3) Implement a do nothing
ACE_Condition
variable wrapper, i.e., all methods are no ops. This class is necessary since some C++ compilers are *very* lame...
- ACE_Null_Mutex (3) Implement a do nothing
ACE_Mutex
, i.e., all the methods are no ops.
- ACE_Null_Mutex_Guard (3) This data structure is meant to be used within a method or function... It performs automatic aquisition and release of an ACE_Null_Mutex.
- ACE_Null_Token (3) No op class for nonthreaded platform protocols.
- ACE_ODB (3) This is the object database (ODB) that keeps track of all live ACE objects.
- ACE_OS (3)portable aspects of writing efficient system programs on Win32, POSIX, and other versions of UNIX.
- ACE_Obchunk (3) A "chunk" of memory. This should be a nested class but some compilers don't like them yet.
- ACE_Object_Node (3) Keeps track of the symbol name for a shared object.
- ACE_Obstack (3) Define a simple "mark and release" memory allocation utility. This class is based on the GNU obstack utility.
- ACE_Oneshot_Acceptor (3) Generic factory for passively connecting clients and creating exactly one service handler (SVC_HANDLER).
- ACE_Overlapped_File (3) A wrapper for overlapped file I/O.
- ACE_Parse_Node (3) Provide the base of the object hierarchy that defines the parse tree of Service Nodes.
- ACE_Pipe (3) Provides a bidirectional "pipe" abstraction that is portable to Windows NT, SVR4 UNIX, and BSD UNIX.
- ACE_Proactor (3) An abstraction for Proactive I/O.
- ACE_Process (3) A Portable encapsulation for creating new processes and allows assignment of STDIN, STDOUT, and STDERR of the new process.
- ACE_Process_Condition (3) ACE_Condition variable wrapper that works across processes.
- ACE_Process_Control (3) Used to keep track of a process's activities within its entry point function.
- ACE_Process_Manager (3) Manages a pool of processs.
- ACE_Process_Mutex (3) ACE_Mutex wrapper (valid in same process, as well as across processes).
- ACE_Process_Semaphore (3) Wrapper for Dijkstra style general semaphores that work across processes.
- ACE_Process_Strategy (3) Defines the interface for specifying a concurrency strategy for a
SVC_HANDLER
based on multiprocessing.
- ACE_Profile_Timer (3) A C++ wrapper for UNIX interval timers.
- ACE_RWLock_Invariants (3) RWLock Invariants
- ACE_RW_Mutex (3) Wrapper for readers/writer locks.
- ACE_RW_Process_Mutex (3) Wrapper for readers/writer locks that exist across processes.
- ACE_RW_Thread_Mutex (3) Wrapper for readers/writer locks that exist within a process.
- ACE_RW_Token (3) Not a public interface.
- ACE_Reactor (3) An object oriented event demultiplexor and event handler dispatcher.
- ACE_ReactorEx (3) An object oriented event demultiplexor and event handler ReactorEx for Win32 WaitForMultipleObjects
- ACE_ReactorEx_Notify (3) ReactorEx Notify
- ACE_Reactor_Token (3) Used as a synchronization mechanism to coordinate concurrent access to a Reactor object.
- ACE_Read_Buffer (3) Efficiently reads an artibrarily large buffer from an input stream up to an including a termination character. Also performs search/replace on single occurrences a character in the buffer using the priniciples of Integrated Layer Processing.
- ACE_Read_Guard (3) This class is similar to class
ACE_Guard
, though it acquires/releases a read lock automatically (naturally, the LOCK
it is instantiated with must support the appropriate API).
- ACE_Recursive_Lock (3) Implement a C++ wrapper that allows calls to class ACE_Mutex, ACE_RW_Mutex, and ACE_Semaphore to be nested for a nested acquire() that occurs in the same thread.
- ACE_Recursive_Mutex (3) Implement a C++ wrapper that allows calls to class ACE_Mutex to be nested for a nested acquire() that occurs in the same thread.
- ACE_Recursive_Thread_Mutex (3) Implement a C++ wrapper that allows calls to class
ACE_Thread_Mutex
to be nested for a nested acquire() that occurs in the same thread.
- ACE_Remote_Mutex (3) Proxy for acquiring, renewing, and releasing a distributed mutex.
- ACE_Remote_Name_Space (3) Maintaining accesses Remote Name Server Database. Allows to add NameBindings, change them, remove them and resolve NameBindings.
- ACE_Remote_RLock (3) Proxy for acquiring, renewing, and releasing a distributed readers lock.
- ACE_Remote_Token_Proxy (3) Proxy for acquiring, renewing, and releasing a distributed synchronization token.
- ACE_Remote_WLock (3) Proxy for acquiring, renewing, and releasing a distributed writers lock.
- ACE_Remove_Node (3) Remove a Service Node.
- ACE_Resume_Node (3) Resume a Service Node.
- ACE_SOCK (3) Defines the member functions for the base class of the ACE_SOCK abstraction.
- ACE_SOCK_Acceptor (3) Defines the format and interface for an ACE_SOCK ACE_Stream acceptor.
- ACE_SOCK_CODgram (3) Defines the member functions for the ACE_SOCK connected datagram abstraction.
- ACE_SOCK_Connector (3) Defines an active connection factory for the socket wrappers.
- ACE_SOCK_Dgram (3) Defines the member functions for the ACE_SOCK datagram abstraction.
- ACE_SOCK_Dgram_Bcast (3) Defines the member functions for the ACE_SOCK datagram abstraction.
- ACE_SOCK_Dgram_Mcast (3) Defines the member functions for the ACE_SOCK multicast abstraction.
- ACE_SOCK_IO (3) Defines the methods for the ACE_SOCK I/O routines (i.e., send/recv).
- ACE_SOCK_Stream (3) Defines the member functions for the ACE_SOCK ACE_Stream abstraction.
- ACE_SPIPE (3) Defines the member functions for the base class of the ACE_SPIPE abstraction.
- ACE_SPIPE_Acceptor (3) Defines the format and interface for the listener side of the ACE_SPIPE_Stream.
- ACE_SPIPE_Addr (3) Defines the SVR4 STREAM pipe address family address format.
- ACE_SPIPE_Connector (3) Defines an active connection factory for the STREAM pipe wrappers.
- ACE_SPIPE_Stream (3) Define an ACE_SPIPE_Stream.
- ACE_SString (3) A very "Simple String" (ACE_SString) class.
- ACE_STREAM_Type (3)
- ACE_ST_CORBA_Handler (3)threaded CORBA requests in conjunction with the ACE_Reactor.
- ACE_SV_Message (3) Defines the header file for the C++ wrapper for message queues. */
- ACE_SV_Message_Queue (3) Defines the header file for the C++ wrapper for System V IPC message queues.
- ACE_SV_Semaphore_Simple (3) This is a simple semaphore package that assumes there are no race conditions for initialization (i.e., the order of process startup must be well defined).
- ACE_SV_Shared_Memory (3) This is a wrapper for System V shared memory.
- ACE_Sbrk_Memory_Pool (3) Make a memory pool that is based on
sbrk
(2).
- ACE_Schedule_All_Reactive_Strategy (3)threaded reactive service .
- ACE_Schedule_All_Threaded_Strategy (3) Defines the interface for specifying how to suspend and resume a multithreaded service .
- ACE_Scheduling_Strategy (3) Defines the interface for specifying how to suspend and resume a service .
- ACE_Semaphore (3) Wrapper for Dijkstra style general semaphores.
- ACE_Service_Config (3) Provide the base class that supplies common server daemon operations.
- ACE_Service_Manager (3) Provide a standard service that returns a list of all services in the Service Repository.
- ACE_Service_Object (3) Provide the abstract base class common to all services
- ACE_Service_Object_Type (3) Define the methods for handling
ACE_Service_Objects
.
- ACE_Service_Record (3) Packaging interface for the various types of
ACE_Service_Types
.
- ACE_Service_Repository (3) Provide the abstract base class that supplies common server repository operations.
- ACE_Service_Repository_Iterator (3)
- ACE_Service_Type (3) Provide the class hierarchy that defines the contents of the Service Repository search structure.
- ACE_Shared_Memory (3) This base class adapts both System V shared memory and "BSD" mmap to a common API.
- ACE_Shared_Memory_MM (3) Shared memory wrapper based on MMAP.
- ACE_Shared_Memory_Pool (3) Make a memory pool that is based on System V shared memory (shmget(2) etc.). This implementation allows memory to be shared between processes.
- ACE_Shared_Memory_SV (3) Shared memory wrapper based on System V shared memory.
- ACE_Shared_Object (3) Provide the abstract base class used to access dynamic linking facilities
- ACE_Sig_Action (3) C++ wrapper around struct sigaction.
- ACE_Sig_Adapter (3) Provide an adapter that transforms various types of signal handlers into the scheme used by the
ACE_Reactor
.
- ACE_Sig_Guard (3) Hold signals in MASK for duration of a C++ statement block. Note that a "0" for mask causes all signals to be held.
- ACE_Sig_Handler (3) This is the main dispatcher of signals for ACE. It improves the existing UNIX signal handling mechanism by allowing C++ objects to handle signals in a way that avoids the use of global/static variables and functions.
- ACE_Sig_Handlers (3) This is an alternative signal handling dispatcher for ACE. It allows a list of signal handlers to be registered for each signal. It also makes SA_RESTART the default mode.
- ACE_Sig_Set (3) Provide a C++ wrapper for the C sigset_t interface.
- ACE_Singleton (3) A Singleton Adapter.
- ACE_Singleton_Strategy (3) Defines the interface for specifying a creation strategy for a
SVC_HANDLER
that always returns the same SVC_HANDLER
(i.e., it's a Singleton).
- ACE_Static_Node (3) Handle a statically linked node.
- ACE_Str_Buf (3) Simple wrapper for STREAM pipes strbuf.
- ACE_Strategy_Acceptor (3) Abstract factory for creating a service handler (SVC_HANDLER), accepting into the SVC_HANDLER, and activating the SVC_HANDLER.
- ACE_Stream (3) This class is the primary abstraction for the ASX framework. It is moduled after System V Stream.
- ACE_Stream_Head (3) Standard module that acts as the head of a ustream.
- ACE_Stream_Node (3) Handle a Stream.
- ACE_Stream_Tail (3) Standard module that acts as the head of a ustream.
- ACE_Stream_Type (3) Define the methods for handling
ACE_Streams
.
- ACE_Suspend_Node (3) Suspend a Service Node.
- ACE_Svc_Handler (3) Defines the interface for a service that exchanges data with its connected peer.
- ACE_Svc_Tuple (3) Holds the ACE_Svc_Handler and its argument and
ACE_Timer_Handle
until an asynchronous connection completes.
- ACE_System_Time (3) Defines the timer services of the OS interface to access the system time either on the local host or on the central time server in the network.
- ACE_TLI (3) Defines the member functions for the base class of the ACE_TLI abstraction.
- ACE_TLI_Acceptor (3) Defines the member functions for ACE_TLI_Acceptor abstraction.
- ACE_TLI_Connector (3) Defines an active connection factory for the ACE_TLI C++ wrappers.
- ACE_TLI_Stream (3) Defines the member functions for ACE_TLI_Stream abstraction.
- ACE_TOKEN_CONST (3) Not a public interface.
- ACE_TPQ_Entry (3) Not a public interface.
- ACE_TPQ_Iterator (3) Not a public interface.
- ACE_TSS (3) Allows objects that are "physically" in thread specific storage (i.e., private to a thread) to be accessed as though they were "logically" global to a program.
- ACE_TSS_Connection (3) Class for providing a connection per thread.
- ACE_TSS_Guard (3) This data structure is meant to be used within a method or function... It performs automatic aquisition and release of a synchronization object. Moreover, it ensures that the lock is released even if a thread exits via "thr_exit()"!
- ACE_TSS_Read_Guard (3) This class is similar to class
ACE_TSS_Guard
, though it acquires/releases a read lock automatically (naturally, the LOCK
it is instantiated with must support the appropriate API).
- ACE_TSS_TPQ_Entry (3) Not a public interface.
- ACE_TSS_Write_Guard (3)lock automatically (naturally, the LOCK it is instantiated with must support the appropriate API).
- ACE_TTY_IO (3)specific features.
- ACE_Task (3) Primary interface for application message processing, as well as input and output message queueing.
- ACE_Task_Exit (3) Keep exit information for a Task in thread specific storage so that the Task::close() method will get called no matter how the thread exits (e.g., via Thread::exit() or by "falling off the end of Task::svc_run").
- ACE_Task_Flags (3) These flags are used within the ACE_Task.
- ACE_Test_and_Set (3) Implements the classic ``test and set'' operation.
- ACE_Thread (3) Provides a wrapper for threads.
- ACE_Thread_Condition (3) ACE_Condition variable wrapper that works within processes.
- ACE_Thread_Control (3) Used to keep track of a thread's activities within its entry point function.
- ACE_Thread_Manager (3) Manages a pool of threads.
- ACE_Thread_Mutex (3) ACE_Thread_Mutex wrapper (only valid for threads in the same process).
- ACE_Thread_Mutex_Guard (3) This data structure is meant to be used within a method or function... It performs automatic aquisition and release of an ACE_Mutex.
- ACE_Thread_Semaphore (3) Wrapper for Dijkstra style general semaphores that work only within on process.
- ACE_Thread_Strategy (3) Defines the interface for specifying a concurrency strategy for a
SVC_HANDLER
based on multithreading.
- ACE_Thru_Task (3) Standard module that acts as a "no op", simply passing on all data to its adjacent neighbor.
- ACE_Time_Request (3) Message format for delivering requests to the ACE_Time Server.
- ACE_Time_Value (3) Operations on "timeval" structures.
- ACE_Timer_Node (3) Maintains the state associated with a Timer entry.
- ACE_Token (3) Class that acquires, renews, and releases a synchronization token that is local to the process.
- ACE_Token_Collection (3) Allows atomic token group operations AND provides a ACE_Token manager interface.
- ACE_Token_Invariant_Manager (3) Token Invariants
- ACE_Token_Manager (3) Manages all tokens in a process space.
- ACE_Token_Name (3) Allows Token_Manger to identify tokens.
- ACE_Token_Proxy (3) Abstract representation of ACE tokens.
- ACE_Token_Proxy_Queue (3) Not a public interface.
- ACE_Token_Reply (3) Message format for delivering replies from the ACE_Token Server.
- ACE_Token_Request (3) Message format for delivering requests to the ACE_Token Server.
- ACE_Tokens (3) Not a public interface.
- ACE_Trace (3) A C++ trace facility that keeps track of which methods are entered and exited.
- ACE_Typed_SV_Message (3) Defines the header file for the C++ wrapper for System V message queues.
- ACE_Typed_SV_Message_Queue (3) Defines the header file for the C++ wrapper for message queues.
- ACE_UNIX_Addr (3) Defines the ``UNIX domain address family'' address format.
- ACE_UPIPE_Acceptor (3) Defines the format and interface for the listener side of the ACE_UPIPE_Stream.
- ACE_UPIPE_Connector (3) Defines an active connection factory for the
ACE_UPIPE_STREAM
wrappers.
- ACE_UPIPE_Stream (3) Defines the method that transfer data on a UPIPE.
- ACE_Unbounded_Queue (3) A Queue of "infinite" length.
- ACE_Unbounded_Set (3) Implement a simple unordered set of
T
of unbounded size.
- ACE_Unbounded_Set_Iterator (3) Implement an iterator over an unbounded set.
- ACE_Unbounded_Stack (3) Implement a generic LIFO abstract data type.
- ACE_WString (3) A persistent wide string class.
- ACE_Write_Guard (3) This class is similar to class
ACE_Guard
, though it acquires/releases a write lock automatically (naturally, the LOCK
it is instantiated with must support the appropriate API).
- ACE_XtReactor (3) An object oriented event demultiplexor and event handler dispatcher that uses the X Toolkit functions.
- ACE_cond_t (3) This structure is used to implement condition variables on NT.
- Driver (3)
- auto_array_ptr (3) Implements an extension to the draft C++ standard auto_ptr abstraction.
- auto_ptr (3) Implements the draft C++ standard auto_ptr abstraction.