- Documentation
- Reference manual
- Packages
- A C++ interface to SWI-Prolog
- A C++ interface to SWI-Prolog (Version 2)
- Summary of changes between Versions 1 and 2
- Sample code (version 2)
- Introduction (version 2)
- The life of a PREDICATE (version 2)
- Overview (version 2)
- Examples (version 2)
- Rationale for changes from version 1 (version 2)
- Porting from version 1 to version 2
- The class PlFail (version 2)
- Overview of accessing and changing values (version 2)
- The class PlRegister (version 2)
- The class PlQuery (version 2)
- The PREDICATE and PREDICATE_NONDET macros (version 2)
- Exceptions (version 2)
- Embedded applications (version 2)
- Considerations (version 2)
- Conclusions (version 2)
- A C++ interface to SWI-Prolog (Version 2)
- A C++ interface to SWI-Prolog
2.15 Embedded applications (version 2)
Most of the above assumes Prolog is‘in charge’of the
application and C++ is used to add functionality to Prolog, either for
accessing external resources or for performance reasons. In some
applications, there is a main-program and we want to use Prolog
as a
logic server. For these applications, the class
PlEngine
has been defined.
Only a single instance of this class can exist in a process. When used in a multi-threading application, only one thread at a time may have a running query on this engine. Applications should ensure this using proper locking techniques.29For Unix, there is a multi-threaded version of SWI-Prolog. In this version each thread can create and destroy a thread-engine. There is currently no C++ interface defined to access this functionality, though ---of course--- you can use the C-functions.
- PlEngine :: PlEngine(int argc, char **argv)
- Initialises the Prolog engine. The application should make sure to pass
argv[0]
from its main function, which is needed in the Unix version to find the running executable. See PL_initialise() for details. - PlEngine :: PlEngine(char *argv0)
- Simple constructure using the main constructor with the specified
argument for
argv[0]
. - ~ PlEngine()
- Calls PL_cleanup() to destroy all data created by the Prolog engine.
Section 1.4.11 has a simple example using this class.