The PREDICATE macro is there to make your code look nice, taking care of the interface to the C-defined SWI-Prolog kernel as well as mapping exceptions. Using the macro
PREDICATE(hello, 1)
is the same as writing:22There
are a few more details, such as catching std::bad_alloc.:
static foreign_t pl_hello__1(PlTermv PL_av);
static foreign_t
_pl_hello__1(term_t t0, int arity, control_t ctx)
{ (void)arity; (void)ctx;
try
{ return pl_hello__1(PlTermv(1, t0));
} catch( PlFail& )
{ return false;
} catch ( PlException& ex )
{ return ex.plThrow();
}
}
static PlRegister _x_hello__1("hello", 1, _pl_hello__1);
static foreign_t
pl_hello__1(PlTermv PL_av)
The first function converts the parameters passed from the Prolog
kernel to a PlTermv instance and maps exceptions raised in
the body to simple failure or Prolog exceptions. The PlRegister
global constructor registers the predicate. Finally, the function header
for the implementation is created.
The PREDICATE() macros have a number of variations that deal with special cases.
PL_av is not used.
NAMED_PREDICATE("#", hash, 2)
{ A2 = (wchar_t*)A1;
}
Non-deterministic predicates are defined using PREDICATE_NONDET(plname, cname, arity) or NAMED_PREDICATE_NONDET(plname, cname, arity).
A non-deterministic predicate returns a "context", which is passed to
a subsequent retry. Typically, this context is allocated on the first
call to the predicate and freed when the predicate either fails or does
its last successful return (the context is nullptr on the
first call). To simplify this, a template helper function
PlControl::context_unique_ptr<ContextType>() provides a
"smart pointer" that frees the context on normal return or an exception;
when used with PL_retry_address(), the context's std:unique_ptr<ContextType>::release()
is used to pass the context to Prolog for the next retry, and to prevent
the context from being freed. If the predicate is called with PL_PRUNE,
the normal return true will implicitly free the context.
The skeleton for a typical non-deterministic predicate is:
struct PredContext { ... }; // The "context" for retries
PREDICATE_NONDET(pred, <arity>)
{
auto ctxt = handle.context_unique_ptr<PredContext>();
switch( PL_foreign_control(handle) )
{ case PL_FIRST_CALL:
ctxt.reset(new PredContext(...));
...
break;
case PL_REDO:
break;
case PL_PRUNED:
return true;
}
if ( ... )
return false; // Failure (and no more solutions)
// or throw PlFail();
if ( ... )
return true; // Success (and no more solutions)
...
PL_retry_address(ctxt.release()); // Succeed with a choice point
}
With no special precautions, the predicates are defined into the
module from which load_foreign_library/1
was called, or in the module
user if there is no Prolog context from which to deduce the
module such as while linking the extension statically with the Prolog
kernel.
Alternatively, before loading the SWI-Prolog include file, the macro PROLOG_MODULE may be defined to a string containing the name of the destination module. A module name may only contain alpha-numerical characters (letters, digits, _). See the example below:
#define PROLOG_MODULE "math"
#include <SWI-Prolog.h>
#include <math.h>
PREDICATE(pi, 1)
{ A1 = M_PI;
}
?- math:pi(X). X = 3.14159