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Unigine::HLA::HLAClientInterface Class

Header: #include <HLAClientInterface.h>
Warning
The HLAClient plugin is deprecated and no longer supported.

This class represents the HLA Client interface.

Notice
HLAClient plugin must be loaded.

HLAClientInterface Class

Members


static HLAClientInterfacePtr create ( )

int init( int version, const char * fom_path, const char * federate_name, const char * federation_execution_name )

Initializes the HLA Client using the given parameters.

Arguments

  • int version - Callback type. One of the following values: RTI13, RTI1516, or RTI1516E.
  • const char * fom_path - path to FOM file (.fed or .xml, depends on version)
  • const char * federate_name - name of the current instance
  • const char * federation_execution_name - name of the group of federates with the same FOM.
    Notice
    OpenRTI uses names like "rti://fedExecName", Pitch RTI uses simple "fedExecName".

Return value

1 if the HLA Client was initialized successfully; otherwise, 0.

void setTimeRegulation( bool start_constrained, bool start_regulating )

Sets time management mode for the federate. In general, a federate may be "regulating," "constrained," "regulating and constrained," or "neither regulating nor constrained.

Arguments

  • bool start_constrained - Constrained flag: true if the federate is a constrained one (can receive TSO messages); otherwise, false.
  • bool start_regulating - Regulating flag: true if the federate is a regulating one (can send TSO messages); otherwise, false.

int isConstrained( )

Returns a value indicating if the federate is a constrained one, i.e. can receive TSO (time-stamped order) messages.

Return value

1 if the federate is a constrained one; otherwise, 0.

int isRegulating( )

Returns a value indicating if the federate is a regulating one, i.e. can send TSO (time-stamped order) messages.

Return value

1 if the federate is a regulating one; otherwise, 0.

void setTimeStep( double time_step )

Sets a lookahead value for a regulating federate, this value determines the frequency of calling the timeAdvanceRequest() method.

Arguments

  • double time_step - Enable flag. Use 1 to show the debug window, or 0 - to hide it.

double getLocalTime( )

Returns the local time of the current federate.

Return value

Local time of the current federate.

void registerFederationSynchronizationPoint( const char * label, const char * tag )

Registers a new syncronization point for all federates.

Arguments

  • const char * label - String uniquely identifying the synchronization point.
  • const char * tag - User-supplied tag.

void registerFederationSynchronizationPoint( const char * label, const char * tag, const Vector<unsigned long> & sync_set )

Registers a new syncronization point.

Arguments

  • const char * label - String uniquely identifying the synchronization point.
  • const char * tag - User-supplied tag.
  • const Vector<unsigned long> & sync_set - List containing handles of federates to synchronize.

void synchronizationPointAchieved( const char * label )

Sends a message that specified synchronization point was successfully achieved with all requirements fulfilled.

Arguments

  • const char * label - String uniquely identifying the synchronization point.

unsigned long getInteractionClassHandle( const char * name )

Returns interaction class handle.

Arguments

  • const char * name - Interaction class name.

Return value

Interaction class handle.

unsigned long getParameterHandle( const char * name, unsigned long which_class )

Returns parameter handle.

Arguments

  • const char * name - Parameter name.
  • unsigned long which_class - Class to which the parameter belongs.

Return value

Handle of the specified parameter.

unsigned long getObjectClassHandle( const char * name )

Returns object class handle.

Arguments

  • const char * name - Object class name

Return value

Handle of the specified object class.

unsigned long getAttributeHandle( const char * name, unsigned long which_class )

Returns attribute handle.

Arguments

  • const char * name - Attribute name.
  • unsigned long which_class - Class to which the attribute belongs.

Return value

Handle of the specified attribute.

void publishAndSubscribeObject( unsigned long handle_id, const Vector<unsigned long> & attributes )

Publish and subscribe for the specified Object Class.

Arguments

  • unsigned long handle_id - Handle ID.
  • const Vector<unsigned long> & attributes - List of attributes.

void publishObject( unsigned long handle_id, const Vector<unsigned long> & attributes )

Publish the specified Object Class.

Arguments

  • unsigned long handle_id - Handle ID.
  • const Vector<unsigned long> & attributes - List of attributes.

void subscribeObject( unsigned long handle_id, const Vector<unsigned long> & attributes )

Subscribe for the specified Object Class.

Arguments

  • unsigned long handle_id - Handle ID.
  • const Vector<unsigned long> & attributes - List of attributes.

void publishAndSubscribeInteraction( unsigned long handle_id )

Publish and subscribe for the specified Interaction Class.

Arguments

  • unsigned long handle_id - Class handle ID.

void publishInteraction( unsigned long handle_id )

Publish the specified Interaction Class.

Arguments

  • unsigned long handle_id - Class handle ID.

void subscribeInteraction( unsigned long handle_id )

Subscribe to the specified Interaction Class.

Arguments

  • unsigned long handle_id - Class handle ID.

unsigned long registerObjectInstance( unsigned long class_handle_id, const char * name )

Registers a new object instance instance with the specified name.

Arguments

  • unsigned long class_handle_id - Class handle ID.
  • const char * name - Object name.

Return value

Object handle.

int updateAttributeValues( unsigned long object_id, const Map<unsigned long, String> & attributes, const char * tag )

Updates attribute values for the specified object instance.

Arguments

  • unsigned long object_id - Object ID.
  • const Map<unsigned long, String> & attributes - List of attributes.
  • const char * tag - User-supplied tag.

Return value

1 if the specified attribute values were updated successfully; otherwise, 0.

int updateAttributeValues( unsigned long object_id, const Map<unsigned long, String> & attributes, double time, const char * tag )

Updates attribute values for the specified object instance.

Arguments

  • unsigned long object_id - Object ID.
  • const Map<unsigned long, String> & attributes - List of attributes.
  • double time - Federation time.
  • const char * tag - User-supplied tag.

Return value

1 if the specified attribute values were updated successfully; otherwise, 0.

int deleteObjectInstance( unsigned long object_id, const char * tag )

Deletes the specified object instance.

Arguments

  • unsigned long object_id - Object ID.
  • const char * tag - User-supplied tag.

Return value

1 if the specified object instance was deleted successfully; otherwise, 0.

int deleteObjectInstance( unsigned long object_id, double time, const char * tag )

Deletes the specified object instance.

Arguments

  • unsigned long object_id - Object ID.
  • double time - Federation time.
  • const char * tag - User-supplied tag.

Return value

1 if the specified object instance was deleted successfully; otherwise, 0.

int sendInteraction( unsigned long handle_id, const Map<unsigned long, String> & parameters, const char * tag )

Sends an interaction with the specified parameters.

Arguments

  • unsigned long handle_id - Handle ID.
  • const Map<unsigned long, String> & parameters - List of parameters.
  • const char * tag - User-supplied tag.

Return value

1 if interaction was sent successfully; otherwise, 0.

int sendInteraction( unsigned long handle_id, const Map<unsigned long, String> & parameters, double time, const char * tag )

Sends an interaction with the specified parameters.

Arguments

  • unsigned long handle_id - Handle ID.
  • const Map<unsigned long, String> & parameters - List of parameters.
  • double time - Federation time.
  • const char * tag - User-supplied tag.

Return value

1 if interaction was sent successfully; otherwise, 0.

void enableTimeRegulation( double federate_time, double lookahead )

Enables time regulation mode for the federate.

Arguments

  • double federate_time - Federate time.
  • double lookahead - Lookahead value for a regulating federate, this value determines the frequency of calling the timeAdvanceRequest() method.

void disableTimeRegulation( )

Disables time regulation mode for the federate.

void enableTimeConstrained( )

Enables time-constrained mode for the federate.

void disableTimeConstrained( )

Disables time-constrained mode for the federate.

void timeAdvanceRequest( double time )

Issues a Time Advance Request for the federate.
Notice
This method is used by time-stepped federates.

Arguments

  • double time - Time value.

void timeAdvanceRequestAvailable( double time )

Enables time regulation mode for the federate.
Notice
This method is used by time-stepped federates.

Arguments

  • double time - Time value.

void nextEventRequest( double time )

Advances the federate’s logical time to the time-stamp of the next relevant TSO event in the federation.
Notice
This method is used by event-based federates.

Arguments

  • double time - Time stamp of the next local event the federate wishes to advance to.

void nextEventRequestAvailable( double time )

Advances the federate’s logical time to the time-stamp of the next relevant TSO event in the federation. The method is similar to nextEventRequest(), except that a time advance might be granted before all TSO events at the grant time have been delivered to the federate.
Notice
This method is used by event-based federates.

Arguments

  • double time - Time stamp of the next local event the federate wishes to advance to.

void flushQueueRequest( double time )

Process all federation events regardless of time.

Arguments

  • double time - Time value.

void enableAsynchronousDelivery( )

Instructs the LRC to begin delivering receive-ordered events to the federate even while no time-advancement service is in progress.

void disableAsynchronousDelivery( )

Instructs the LRC not to deliver receive-ordered events in the absense of an in-progress time-advancement service. This has only a meaning for time-constrained federates, since non-constrained federates receive all events in receive order.

void modifyLookahead( double lookahead )

Sets the new lookahead window for the federate.

Arguments

  • double lookahead - New size of the interval extending forward from the federate’s logical time at a given point in execution in which a federate will not generate any time stamp ordered events.

void queryLookahead( double lookahead )

Returns the current lookahead window being used for the federate.

Arguments

  • double lookahead - Time value.

CallbackBase * addCallback( int callback, CallbackBase * func )

Adds a callback function of the specified type.

Arguments

  • int callback - Callback type. One of the CALLBACK_* variables.
  • CallbackBase * func - Callback pointer.

Return value

Pointer to the added callback.

void removeCallback( int callback, CallbackBase * func )

Removes a specified callback function of the specified type.

Arguments

  • int callback - Callback type. One of the CALLBACK_* variables.
  • CallbackBase * func - Callback pointer.

void clearCallbacks( int callback )

Clears all callback functions of the specified type.

Arguments

  • int callback - Callback type. One of the CALLBACK_* variables.

int shutdown( )

Shuts down the HLA Client.

Return value

1 if the HLA Client was shut down successfully; otherwise, 0.
Last update: 27.12.2018
Build: ()