ACE | |
string > | |
string > | |
string > | |
CONV_FRAME | |
CodeSetComponent | |
CodeSetComponentInfo | |
CORBA | FUZZ: disable check_for_include/ |
Current | |
Environment | Environment |
Exception | Exception |
ORB | ORB pseudo-object |
InvalidName | UserException for resolve_initial_references() |
LocalObject | |
Object | Implementation of a CORBA object reference |
NamedValue | |
PolicyError | |
InvalidPolicies | |
Policy | |
PolicyCurrent | |
PolicyManager | |
Principal | A "Principal" identifies an authenticated entity in the network administration framework |
ServiceDetail | |
ServiceInformation | |
SystemException | SystemException |
UserException | Application- or OMG- defined CORBA exception sub-class |
WrongTransaction | UserException for DII requests |
Dynamic | Forward declarations |
GIOP | |
Version | |
IORAddressingInfo | |
TargetAddress | |
IIOP | |
ListenPoint | |
BiDirIIOPServiceContext | |
IOP | |
TaggedProfile | |
IOR | |
TaggedComponent | |
ServiceContext | |
Messaging | |
PolicyValue | |
ORB | This namespace encapsulates some private behaviors and global data structures used internal to TAO. No application should EVER see them which is why they are not exported |
PortableInterceptor | |
TAO | Define symbolic names for the ORB collocation strategies as used at runtime |
CSD | |
details | |
array_traits | |
bounded_array_allocation_traits | |
bounded_reference_allocation_traits | |
bounded_value_allocation_traits | |
generic_sequence | |
object_reference_const_sequence_element | |
object_reference_sequence_element | |
object_reference_traits_base | |
object_reference_traits_decorator | |
object_reference_traits | |
range_checking | Configurable traits to tradeoff safety vs. performance in the implementation of TAO sequences |
string_const_sequence_element | |
string_sequence_element | |
string_traits_base | |
string_traits_base< char > | |
string_traits_base< CORBA::WChar > | |
string_traits_decorator | |
string_traits | |
unbounded_array_allocation_traits | |
unbounded_reference_allocation_traits | |
unbounded_value_allocation_traits | |
value_traits | |
ORB | |
Portable_Server | |
Transport | |
Drain_Constraints | Encapsulate the flushing control parameters |
Stats | |
TypeCode | |
Case | |
Struct_Field | |
Value_Field | |
TAO_Allocator | Abstract class for TAO allocators. This will be used for derived allocator templates that are capable of allocating a specific type of objects |
Any_Insert_Policy_Stream | |
Any_Insert_Policy_AnyTypeCode_Adapter | |
Any_Insert_Policy_IFR_Client_Adapter | |
Any_Insert_Policy_Noop | |
Any_Insert_Policy_CORBA_Object | |
Arg_Traits | Base class for all stub arg traits specializations |
Argument | Base class for argument class templates |
InArgument | |
InoutArgument | |
OutArgument | |
RetArgument | |
Void_Return_Argument | |
Array_Traits | Specialized for each array in generated code |
ARDB_Refcount_Functor | Functor for refcounting of Asynch_Reply_Dispatcher_Base |
In_Basic_Argument_T | Template class for IN stub argument of basic IDL types |
In_Basic_Clonable_Argument_T | Template class for IN stub argument of basic IDL types |
Inout_Basic_Argument_T | Template class for INOUT stub argument of basic IDL types |
Out_Basic_Argument_T | Template class for OUT stub argument of basic IDL types |
Ret_Basic_Argument_T | Template class for return stub value of basic IDL types |
Basic_Arg_Traits_T | Template class for stub argument traits of basic IDL types |
Arg_Traits< void > | Specialization for void return type |
Arg_Traits< CORBA::Short > | Specializations for basic stub arg types, except (w)char/boolean/octet |
Arg_Traits< CORBA::Long > | |
Arg_Traits< CORBA::UShort > | |
Arg_Traits< CORBA::ULong > | |
Arg_Traits< CORBA::Float > | |
Arg_Traits< CORBA::Double > | |
Arg_Traits< CORBA::LongLong > | |
Arg_Traits< CORBA::ULongLong > | |
Arg_Traits< CORBA::LongDouble > | |
Arg_Traits< std::string > | |
Arg_Traits< std::wstring > | |
String_var | |
String_out | String_out |
In_BD_String_Argument_T | Template class for IN bounded (w)string argument |
In_BD_String_Clonable_Argument_T | Template class for IN bounded (w)string argument |
Inout_BD_String_Argument_T | Template class for INOUT bounded (w)string argument |
Out_BD_String_Argument_T | Template class for OUT bounded (w)string argument |
Ret_BD_String_Argument_T | Template class for return stub value of bd (w)string argument |
BD_String_Arg_Traits_T | Template class for stub argument traits of bounded (w)strings |
bounded_array_sequence | |
bounded_basic_string_sequence | |
bounded_bd_string_sequence | |
bounded_object_reference_sequence | |
bounded_value_sequence | |
TAO_Buffer_Allocator | Generic buffer allocator for TAO |
Cache_IntId_T | Helper class for TAO_Transport_Cache_Manager |
Cache_ExtId_T | Helper class for TAO_Transport_Cache_Manager: unifies several data items, so they can be stored together as a value for a key in a hash table holding the state of the Transport Cache |
ClientRequestInterceptor_Adapter | A convenient helper class to invoke registered client request interceptors |
Collocated_Invocation | Class for Collocated invocations |
String_Manager_T | |
String_Var_Equal_To | |
Exception_Data | Description of a single exception |
In_Fixed_Array_Argument_T | IN stub argument of fixed size element array |
In_Fixed_Array_Clonable_Argument_T | IN stub argument of fixed size element array |
Inout_Fixed_Array_Argument_T | INOUT stub argument of fixed size element array |
Out_Fixed_Array_Argument_T | OUT stub argument of fixed size element array |
Ret_Fixed_Array_Argument_T | Return stub value of fixed size element array |
Fixed_Array_Arg_Traits_T | Argument traits of fixed size element array |
In_Fixed_Size_Argument_T | Template class for IN stub argument of fixed size IDL types |
In_Fixed_Size_Clonable_Argument_T | Template class for IN stub argument of fixed size IDL types |
Inout_Fixed_Size_Argument_T | Template class for INOUT stub argument of fixed size IDL types |
Out_Fixed_Size_Argument_T | Template class for OUT stub argument of fixed size IDL types |
Ret_Fixed_Size_Argument_T | Template class for return stub value of fixed size IDL types |
Fixed_Size_Arg_Traits_T | Template class for argument traits of fixed size IDL types |
GUIResource_Factory | |
IIOP_Endpoint_Info | Stores information for a single IIOP endpoint |
Incoming_Message_Stack | Implements stack for TAO_Queued_Data |
Invocation_Adapter | Generic interface for the invocation object visible to the IDL compiler |
Invocation_Base | The base class for the invocation object |
Invocation_Retry_Params | Contains the invocation retry parameters used when encountering CORBA exceptions. The parameters can be specified using either the Client_Strategy_Factory service given in the service configuration file or through the command line. Any command line parameter overrides the corresponding option in the service configurator file |
Invocation_Retry_State | Maintains state of invocation retries |
First_Request_Guard | Auto pointer like class for first_request flag in transport |
LocateRequest_Invocation | Object created by TAO::LocateRequest_Invocation_Adapter to create and send LocateRequest invocation |
LocateRequest_Invocation_Adapter | Adapter class for locate request invocations |
Nested_Upcall_Guard | : Magic class that sets the status of the thread in the TSS |
Arg_Traits< CORBA::Object > | |
Objref_Traits< CORBA::Object > | |
In_Object_Argument_Cloner_T< CORBA::InterfaceDef_ptr > | |
In_Object_Argument_T | Template class for IN object argument |
In_Object_Argument_Cloner_T | |
In_Object_Clonable_Argument_T | Template class for IN object argument |
Inout_Object_Argument_T | Template class for INOUT object argument |
Out_Object_Argument_T | Template class for OUT object argument |
Ret_Object_Argument_T | Template class for return stub value of object argument |
Object_Arg_Traits_T | Template class for stub argument traits of objects |
ObjectKey | |
Object_Proxy_Broker | Object_Proxy_Broker |
Narrow_Utils | |
Less_Than_ObjectKey | Compares the length and then the contents of ObjectKeys |
ObjectKey_Table | Table that maintains the set of ObjectKey's seen by the ORB |
Objref_Traits | Specialized for each interface in generated code. Just forward declare, a specialization must always be there, if not, we get a compile error |
ORB_Table | Keep a table with all the ORBs in the system |
ORB_Core_Ref_Counter | |
ORB_Time_Policy | Implement a time policy class which returns timer according to the active ORB time policy |
ORBInitializer_Registry_Adapter | |
PolicyFactory_Registry_Adapter | ORB-specific PortableInterceptor::PolicyFactory registry |
Profile_Transport_Resolver | Chooses the profile and a transport for a target object on which an invocation can be made |
Refcounted_ObjectKey | A wrapper class that ties together a refcount to an ObjectKey |
Remote_Invocation | Base class for remote invocations |
CDR_Byte_Order_Guard | |
Remote_Object_Proxy_Broker | Remote_Object_Proxy_Broker |
RequestInterceptor_Adapter | A base helper class to invoke registered request interceptors |
ServerRequestInterceptor_Adapter | |
In_Special_Basic_Argument_T | Template class for IN stub argument of (w)char/boolean/octet |
In_Special_Basic_Clonable_Argument_T | Template class for IN stub argument of (w)char/boolean/octet |
Inout_Special_Basic_Argument_T | Template class for INOUT stub argument of (w)char/boolean/octet |
Out_Special_Basic_Argument_T | Template class for OUT stub argument of (w)char/boolean/octet |
Ret_Special_Basic_Argument_T | |
Special_Basic_Tag | Struct for basic IDL type arguments id tag |
Special_Basic_Arg_Traits_T | Template class for stub argument traits of (w)char/boolean/octet |
Arg_Traits< ACE_InputCDR::to_char > | Specializations for (w)char, octet and boolean |
Arg_Traits< ACE_InputCDR::to_wchar > | |
Arg_Traits< ACE_InputCDR::to_octet > | |
Arg_Traits< ACE_InputCDR::to_boolean > | |
Storable_Base | |
Storable_Exception | |
Storable_Read_Exception | |
Storable_Write_Exception | |
Storable_Factory | |
Storable_File_Guard | Base class to use with TAO_Storable_Base to synch object state with a storable base |
Storable_FlatFileStream | A Storable_Base derived class that works with a file stream |
Storable_FlatFileFactory | |
Synch_Twoway_Invocation | All the action for a synchronous twoway invocation happen here |
Synch_Oneway_Invocation | All the action for a synchronous oneway invocation happen here |
Reply_Guard | A guard class used for storing and forwarding the reply status to the portable interceptors |
Transport_Cache_Manager_T | The Transport Cache Manager for TAO |
Transport_Queueing_Strategy | Define the interface for the Queueing Strategy |
Flush_Transport_Queueing_Strategy | |
Transport_Selection_Guard | Used by the Transport Current feature to keep track of which Transport is currently active |
In_UB_String_Argument_T | Template class for IN unbounded (w)string argument |
In_UB_String_Clonable_Argument_T | Template class for IN unbounded (w)string argument |
Inout_UB_String_Argument_T | Template class for INOUT unbounded (w)string argument |
Out_UB_String_Argument_T | Template class for OUT unbounded (w)string argument |
Ret_UB_String_Argument_T | Template class for return stub value of ub (w)string argument |
UB_String_Arg_Traits_T | Template class for argument traits of unbounded (w)strings |
Arg_Traits< CORBA::Char * > | Specializatons for unbounded (w)strings |
Arg_Traits< CORBA::WChar * > | |
unbounded_array_sequence | |
unbounded_basic_string_sequence | |
unbounded_bd_string_sequence | |
unbounded_object_reference_sequence | |
unbounded_value_sequence< CORBA::Octet > | |
unbounded_value_sequence | |
In_Var_Array_Argument_T | IN stub argument of variable size element array |
In_Var_Array_Clonable_Argument_T | IN stub argument of variable size element array |
Inout_Var_Array_Argument_T | INOUT stub argument of variable size element array |
Out_Var_Array_Argument_T | OUT stub argument of variable size element array |
Ret_Var_Array_Argument_T | Return stub value of variable size element array |
Var_Array_Arg_Traits_T | Argument traits of variable size element array |
In_Var_Size_Argument_T | Template class for IN stub argument of fixed size IDL types |
In_Var_Size_Clonable_Argument_T | Template class for IN stub argument of fixed size IDL types |
Inout_Var_Size_Argument_T | Template class for INOUT stub argument of fixed size IDL types |
Out_Var_Size_Argument_T | Template class for OUT stub argument of fixed size IDL types |
Ret_Var_Size_Argument_T | Template class for return stub value of fixed size IDL types |
Var_Size_Arg_Traits_T | Template class for stub argument traits of variable size IDL types |
In_Vector_Argument_T | Template class for IN stub argument of unbounded sequence IDL types |
In_Vector_Clonable_Argument_T | Template class for IN stub argument of unbounded sequence IDL types |
Inout_Vector_Argument_T | Template class for INOUT stub argument of unbounded sequence IDL types |
Out_Vector_Argument_T | Template class for OUT stub argument of unbounded sequence IDL types |
Ret_Vector_Argument_T | Template class for return stub value of fixed size IDL types |
Vector_Arg_Traits_T | Template class for stub argument traits of sequence IDL types, when the STL mapping is used by the IDL compiler. The ret_type and out_type typedefs are different from Vector_Arg_Traits_T |
Wait_On_LF_No_Upcall | |
TAO_IIOP | |
TList_Holder | RAII holder for a TAO_Transport list |
TimeBase | COS Time Service basic types |
UtcT | A timestamp in UTC time |
IntervalT | An UTC time interval |
ORB_Table_Ref_Counter | Class contained by ORB_Table's Unbounded_Set |
TAO | |
TAO_Abstract_ServantBase | |
TAO_Accept_Strategy | |
TAO_Acceptor | Abstract Acceptor class used for pluggable transports |
TAO_Acceptor_Filter | Interface for mprofile creation strategies |
TAO_Acceptor_Registry | Acceptor Registry and Generic Acceptor interface definitions. All loaded ESIOP or GIOP acceptor bridges must register with this object |
TAO_Adapter | |
TAO_Adapter_Factory | |
TAO_Adapter_Registry | |
TAO_AnyTypeCode_Adapter | |
TAO_Array_Forany_T | Parametrized implementation of _forany class for arrays |
TAO_Array_Out_T | Parametrized implementation of _out class for arrays |
TAO_Array_Var_Base_T | Parametrized implementation of _var base class for arrays |
TAO_Asynch_Queued_Message | Specialize TAO_Queued_Message for asynch requests, i.e. oneways sent with SYNC_NONE policy |
TAO_Asynch_Reply_Dispatcher_Base | Base class for TAO_Asynch_Reply_Dispatcher and TAO_DII_Deferred_Reply_Dispatcher |
TAO_Auto_Reference | TAO_Auto_Reference acts as a "smart pointer" for reference-countable instances |
TAO_Base_Transport_Property | A concrete implementation for connnection property |
TAO_Base_var | TAO_Base_var |
TAO_BiDir_Adapter | TAO_BiDir_Adapter |
TAO_Bind_Dispatcher_Guard | |
TAO_Block_Flushing_Strategy | Implement a flushing strategy that blocks on write to flush |
TAO_Blocked_Connect_Strategy | Concrete implementation of a connect strategy that blocks during connects |
TAO_Cleanup_Func_Registry | This is a helper class that is designed to perform cleanup on thread-specific objects registered in the ORB Core TSS resources by invoking the corresponding cleanup function on each object. Hence, there is a tight coupling between this class and the TAO ORB Core |
TAO_Client_Strategy_Factory | Abstract factory used by the client to manufacture various strategies used on the client-side |
TAO_ClientRequestInterceptor_Adapter_Factory | TAO_ClientRequestInterceptor_Adapter_Factory |
TAO_Codeset_Descriptor_Base | |
TAO_Codeset_Manager | The encapsulation of logic for codeset negotiation |
TAO_Codeset_Manager_Factory_Base | Base class for creating instances of the codeset manager |
TAO_Codeset_Parameters | A simple storage class for the native codeset and any translators that must be configured when creating an instance of codeset manager |
TAO_Codeset_Translator_Base | Abstract base Translator component for interaction with TAO |
TAO_Collocation_Resolver | This class helps in resolving if a CORBA:Object is collocated |
TAO_Concurrency_Strategy | Activates the Svc_Handler, and then if specified by the TAO_Server_Strategy_Factory, it activates the Svc_Handler to run in its own thread |
TAO_Condition | Same as to the ACE_Condition variable wrapper |
TAO_Connect_Concurrency_Strategy | Concurrency strategy helper |
TAO_Connect_Creation_Strategy | Creation strategy helper |
TAO_Connect_Strategy | Define the interface for the connect strategy, i.e. the algorithm that controls how does the ORB establishes remote connections |
TAO_Connection_Handler | TAO_Connection_Handler |
TAO_Connection_Purging_Strategy | The base class for all purging strategies |
TAO_Connector | Generic Connector interface definitions |
TAO_Connector_Registry | Per-ORB TAO Connector Registry |
TAO_CORBALOC_Parser | Implements the <corbaloc:> IOR format |
parsed_endpoint | |
TAO_CORBANAME_Parser | Implements the <corbaname:> IOR format |
TAO_Creation_Strategy | Creates a Svc_Handler and set the ORB_Core pointer on it |
TAO_Default_Client_Strategy_Factory | This is the "default" client strategy factor for TAO. It includes strategies that are configured through command-line options so that everything operates as if there were no dynamically-linkable strategies |
TAO_Default_Collocation_Resolver | Simple resolver used to decide if a CORBA::Object is collocated |
TAO_Default_Endpoint_Selector | Default strategy for endpoint selection |
TAO_Default_Endpoint_Selector_Factory | Factory for initializing <Endpoint_Selection_State> and obtaining appropriate <Invocation_Endpoint_Selector> |
TAO_Default_Resource_Factory | TAO's default resource factory |
TAO_Default_Server_Strategy_Factory | This is the default strategy factory for CORBA servers. It allows developers to choose strategies via argument flags. This design gives substantial freedom for experimentation |
TAO_Default_Stub_Factory | |
TAO_Default_Thread_Lane_Resources_Manager | Simple manager for thread lane resources |
TAO_Default_Thread_Lane_Resources_Manager_Factory | This class is a factory for managers of thread resources |
TAO_DIOP_Protocol_Properties | |
TAO_DLL_Parser | Implment the parser for the DLL-style IORs |
TAO_Dynamic_Adapter | TAO_Dynamic_Adapter |
TAO_Endpoint | Defines the Endpoint interface in the Pluggable Protocol framework |
TAO_Endpoint_Selector_Factory | Factory for initializing <Endpoint_Selection_State> and obtaining appropriate <Invocation_Endpoint_Selector> |
TAO_Event_Handler_Array_var | Auto pointer like class for an array of Event Handlers |
TAO_Exclusive_TMS | |
TAO_Fault_Tolerance_Service | TAO_Fault_Tolerant_Service |
TAO_FILE_Parser | Implements the <file:> IOR format |
TAO_Fixed_Var_T | Parametrized implementation of _var class for structs, unions, and exceptions with members of fixed size |
TAO_FixedArray_Var_T | Parametrized implementation of _var class for arrays with elements of fixed size |
TAO_FixedSeq_Var_T | Parametrized implementation of _var class for sequences whose element is of fixed size. |
TAO_Flushing_Strategy | Define the interface for the flushing strategy, i.e. the algorithm that controls how does the ORB flush outgoing data |
TAO_GIOP_Fragmenation_Strategy | Abstract base class that defines TAO fragmentation strategy interface |
TAO_GIOP_Fragmentation_Strategy | |
TAO_GIOP_Locate_Request_Header | Location service support |
TAO_GIOP_Locate_Status_Msg | Hold the relevant information for every type of Locate msg |
TAO_GIOP_Message_Base | Definitions of the GIOP specific stuff |
TAO_GIOP_Message_Generator_Parser | Base class for the GIOP Message generator and parser |
TAO_GIOP_Message_Generator_Parser_10 | Implementation for GIOP v1.0 |
TAO_GIOP_Message_Generator_Parser_11 | Implementation for GIOP v1.1 |
TAO_GIOP_Message_Generator_Parser_12 | Implementation for GIOP v1.2 |
TAO_GIOP_Message_Generator_Parser_Impl | This class holds all the different GIOP message generators and parsers |
TAO_GIOP_Message_State | Generic definitions for Message States |
TAO_GIOP_Message_Version | Major and Minor version number of the Inter-ORB Protocol |
TAO_HR_Time_Policy_Strategy | Time policy strategy providing Highres time |
TAO_HTTP_Client | HTTP_Client is intended to provide application API to classes that wish to do network i/o at a very high level of abstraction |
TAO_HTTP_Handler | |
TAO_HTTP_Parser | Implements the <http:> IOR format |
TAO_HTTP_Reader | |
TAO_IFR_Client_Adapter | TAO_IFR_Client_Adapter |
TAO_IIOP_Acceptor | TAO_IIOP_Acceptor |
TAO_IIOP_Connection_Handler | Handles requests on a single connection |
TAO_IIOP_Connection_Handler_Array_Guard | |
TAO_IIOP_Connector | IIOP-specific Connector bridge for pluggable protocols |
TAO_IIOP_Endpoint | TAO_IIOP_Endpoint |
TAO_IIOP_Profile | This class defines the protocol specific attributes required for locating ORBs over a TCP/IP network |
TAO_IIOP_Protocol_Factory | |
TAO_IIOP_Protocol_Properties | |
TAO_IIOP_Transport | Specialization of the base TAO_Transport class to handle the IIOP protocol |
TAO_Incoming_Message_Queue | A queue of the messages in the incoming data path |
TAO_InputCDR | A CDR stream for reading, i.e. for demarshalling |
to_std_string | Helper classes for extracting bounded strings into std::string/wstring |
to_std_wstring | |
TAO_Intrusive_Ref_Count_Base | |
TAO_Intrusive_Ref_Count_Base< ACE_LOCK > | Template base class to provide intrusive reference-counting to subclasses. This makes the subclass capable of using a TAO_Intrusive_Ref_Count_Handle<X> class as a smart-pointer to an X object. In this case, X is a sub-class of this class, TAO_Intrusive_Ref_Count_Base<ACE_LOCK>. The ACE_LOCK type is used to protect the atomic reference count data member |
TAO_Intrusive_Ref_Count_Handle | |
TAO_Intrusive_Ref_Count_Handle< T > | Template class for smart-pointer to (intrusively) ref-counted object |
TAO_Intrusive_Ref_Count_Object | |
TAO_Intrusive_Ref_Count_Object< ACE_LOCK > | Template class as wrapper of a non reference counted data type but provide intrusive reference-counting feature by inherited from TAO_Intrusive_Ref_Count_Base. This makes the parameterized type data be smart pointer by using a TAO_Intrusive_Ref_Count_Handle<X> to an this wrapper object |
TAO_Invocation_Endpoint_Selector | Defines the interface for policy-based endpoint selection strategies |
TAO_IOR_Parser | Defines the interface for the pluggable IOR parser components |
TAO_IORInterceptor_Adapter | TAO_IORInterceptor_Adapter |
TAO_IORInterceptor_Adapter_Factory | TAO_IORInterceptor_Adapter_Factory |
TAO_Leader_Follower | TAO_Leader_Follower |
Deferred_Event | Class used to register deferred event handlers |
TAO_Leader_Follower_Flushing_Strategy | Implement a flushing strategy that uses the Leader/Follower set |
TAO_LF_CH_Event | Use the Leader/Follower loop to wait for one specific event in the invocation path |
TAO_LF_Client_Leader_Thread_Helper | |
TAO_LF_Client_Thread_Helper | |
TAO_LF_Connect_Strategy | Concrete implementation of a connect strategy that waits on the leader-follower during asynchronous connects |
TAO_LF_Event | Use the Leader/Follower loop to wait for one specific event |
TAO_LF_Event_Binder | Implement an auto_ptr-like class for the TAO_LF_Followers allocated via a TAO_Leader_Follower set |
TAO_LF_Event_Loop_Thread_Helper | Helper class to enter and exit the Leader/Followers event loop |
TAO_LF_Follower | Represent a thread blocked, as a follower, in the Leader/Followers set |
TAO_LF_Follower_Auto_Adder | Implement an auto_adder-like class for the TAO_LF_Followers allocated via a TAO_Leader_Follower set |
TAO_LF_Follower_Auto_Ptr | Implement an auto_ptr-like class for the TAO_LF_Followers allocated via a TAO_Leader_Follower set |
TAO_LF_Invocation_Event | Use the Leader/Follower loop to wait for one specific event in the invocation path |
TAO_LF_Multi_Event | Use the Leader/Follower loop to wait for one specific event in the invocation path |
Event_Node | |
TAO_LF_Strategy | Strategize Leader/Follower manipulations in the ORB event loop |
TAO_LF_Strategy_Complete | A concrete TAO_LF_Strategy for ORB configurations that use the Leader/Followers event loop |
TAO_LRU_Connection_Purging_Strategy | The Least Recently Used connection purging strategy |
TAO_Message_Semantics | |
TAO_MProfile | This class implements the basic interface for supporting multiple profiles |
TAO_Muxed_TMS | |
TAO_Network_Priority_Protocols_Hooks | |
TAO_New_Leader_Generator | Class for creating dynamic threads |
TAO_Null_Fragmenation_Strategy | Null GIOP message fragmentation strategy |
TAO_Null_Fragmentation_Strategy | |
TAO_NVList_Adapter | |
TAO_Object_Loader | A class to dynamically load object implementations into an ORB |
TAO_Object_Ref_Table | Keep a table de-stringified object references registered with the ORB |
TAO_Objref_Out_T | Parametrized implementation of _out class for object references |
TAO_Objref_Var_T | Parameterized implementation of _var class for object references |
TAO_On_Demand_Fragmenation_Strategy | On Demand GIOP message fragmentation strategy |
TAO_On_Demand_Fragmentation_Strategy | |
TAO_Operation_Details | Class with operation details |
TAO_ORB_Core | Encapsulates the state of an ORB |
TAO_ORB_Core_Auto_Ptr | Define a TAO_ORB_Core auto_ptr class |
TAO_ORB_Core_Static_Resources | The static (global) resoures of all ORB cores |
TAO_ORB_Core_TSS_Resources | The TSS resoures of an ORB core |
TAO_ORB_Parameters | Parameters that are specific to the ORB. These parameters can be for the client, the server, or for both |
TAO_Out_T | Parametrized implementation of _out class for structs, unions and exceptions. |
TAO_OutputCDR | A CDR stream for writing, i.e. for marshalling |
TAO_Parser_Registry | Maintain the collection of known IOR format parsers |
TAO_Pluggable_Reply_Params | TAO_Pluggable_Connector_Params |
TAO_Pluggable_Reply_Params_Base | TAO_Pluggable_Reply_Params_Base |
TAO_Policy_Current | |
TAO_Policy_Current_Impl | |
TAO_Policy_Manager | |
TAO_Policy_Set | The policy manager implementation |
TAO_Policy_Validator | An abstract class for plugging in different Policy Validator mechanisms |
TAO_PolicyFactory_Registry_Factory | |
TAO_Profile | Defines the Profile interface |
TAO_Protocol_Factory | |
TAO_Protocol_Item | |
TAO_Protocols_Hooks | |
TAO_Pseudo_Out_T | Parametrized implementation of _out class for TypeCode, Object, AbstractBase, NamedValue, NVList, Principal, Request, Context, ORB, LocalObject, and Environment |
TAO_Pseudo_Var_T | Parametrized implementation of _var class for TypeCode, Object, AbstractBase, NamedValue, NVList, Principal, Request, Context, ORB, LocalObject, and Environment |
TAO_Queued_Data | Represents a node in the queue of incoming messages |
TAO_Queued_Message | Represent messages queued in the outgoing data path of the TAO_Transport class |
TAO_Reactive_Connect_Strategy | Concrete implementation of a connect strategy that waits on the reactor during asynch connects |
TAO_Reactive_Flushing_Strategy | Implement a flushing strategy that uses the reactor |
TAO_Reply_Dispatcher | |
TAO_Request_Dispatcher | A class that strategizes the request dispatching procedure |
TAO_Resource_Factory | Factory which manufacturers resources for use by the ORB Core |
TAO_Resume_Handle | A utility class that helps in resuming handlers if TAO uses a TP Reactor from ACE |
TAO_RSF_Timer_Queue_Ptr | A simple auto_ptr like class to manage timer queues dynamically allocated by a time policy |
TAO_SCIOP_Protocol_Properties | |
TAO_Seq_Out_T | Parametrized implementation of _out class for sequences |
TAO_Seq_Var_Base_T | Parametrized implementation of _var base class for sequences |
TAO_Server_Strategy_Factory | Base class for the server's abstract factory that manufactures various strategies of special utility to it. This simply serves as an interface to a subclass that REALLY gets specified and loaded by the Service Configurator |
Active_Object_Map_Creation_Parameters | |
TAO_ServerRequest | Class representing a ServerRequest object |
TAO_ServerRequestInterceptor_Adapter_Factory | TAO_ServerRequestInterceptor_Adapter_Factory |
TAO_Service_Callbacks | An Abstract Base class for the hooks in the ORB |
TAO_Service_Context | Helper class for managing the service context list information |
TAO_Service_Context_Handler | |
TAO_Service_Context_Registry | |
TAO_Services_Activate | A class to dynamically load callback implementations in to an ORB |
TAO_SHMIOP_Protocol_Properties | |
TAO_Singleton | TAO-specific Singleton class |
TAO_Singleton_Manager | Manager for TAO library services and singleton cleanup |
TAO_Strategy_Acceptor | |
TAO_Stub | TAO_Stub |
TAO_Stub_Auto_Ptr | Implements the draft C++ standard auto_ptr abstraction. This class allows one to work Stub Objects Only! |
TAO_Stub_Factory | |
TAO_Synch_Queued_Message | Specialize TAO_Queued_Message for synchronous requests, i.e. twoways and oneways sent with reliability better than SYNC_NONE |
TAO_Synch_Reply_Dispatcher | Reply dispatcher for Synchronous Method Invocation (SMI)s |
TAO_System_Time_Policy_Strategy | Time policy strategy providing Highres time |
TAO_Tagged_Components | The policy manager implementation |
TAO_Tagged_Profile | This class is used to manipulate and access the target address field of a GIOP 1.2 request |
TAO_Target_Specification | A class to encapsulate all the ways of specifying targets |
TAO_Thread_Lane_Resources | Class representing a thread lane's resources |
TAO_Thread_Lane_Resources_Manager | This class is a manager for thread resources |
TAO_Thread_Lane_Resources_Manager_Factory | This class is a factory for managers of thread resources |
TAO_Thread_Per_Connection_Handler | Definition for the thread-per-connection strategy |
TAO_Time_Policy_Manager | |
TAO_Time_Policy_Strategy | Abstract base class for time policy strategy services |
TAO_Transport | Generic definitions for the Transport class |
Drain_Result | |
TAO_Transport_Descriptor_Interface | An abstract base class for Transport Property |
TAO_Transport_Mux_Strategy | Strategy to determine whether the connection should be multiplexed for multiple requests or it is exclusive for a single request at a time |
TAO_Transport_Timer | Allows TAO_Transport instances to receive timeout notifications from the Reactor. In other words, implements the Adapter Role, of the Adapter Pattern, where the Adaptee is a TAO_Transport and the client is the Reactor |
TAO_TSS_Resources | The TSS resoures shared by all the ORBs |
TAO_TSS_Singleton | TAO-specific Singleton class |
TAO_TypeCodeFactory_Adapter | TAO_TypeCodeFactory_Adapter |
TAO_UIOP_Protocol_Properties | |
TAO_Unknown_Profile | A TAO_Profile class to handle foreign profiles |
TAO_Valuetype_Adapter | TAO_Valuetype_Adapter |
TAO_Valuetype_Adapter_Factory | TAO_Valuetype_Adapter_Factory |
TAO_Var_Base_T | Parametrized implementation of _var base class for structs, unions and exceptions |
TAO_Var_Var_T | Parametrized implementation of _var class for structs, unions, and exceptions with members of variable size |
TAO_VarArray_Var_T | Parametrized implementation of _var class for arrays with elements of variable size |
TAO_VarSeq_Var_T | Parametrized implementation of _var class for sequences whose element is of variable size. |
TAO_Wait_On_Leader_Follower | Wait according to the Leader-Follower model. Leader does the event loop of the Reactor and the Followers wait on the condition variable |
TAO_Wait_On_LF_No_Upcall | Wait according to the Leader-Follower model (like TAO_Wait_On_Leader_Follower), but do not allow nested upcalls |
TAO_Wait_On_Reactor | |
TAO_Wait_On_Read | |
TAO_Wait_Strategy | Strategy for waiting for the reply |
TAO_ZIOP_Adapter | TAO_ZIOP_Adapter |
Time_Policy_Manager | Manager service for time policy strategy services |