12.4.1.1 Non-deterministic Foreign Predicates
By default foreign predicates are deterministic. Using the
PL_FA_NONDETERMINISTIC
attribute (see PL_register_foreign())
it is possible to register a predicate as a non-deterministic predicate.
Writing non-deterministic foreign predicates is slightly more
complicated as the foreign function needs context information for
generating the next solution. Note that the same foreign function should
be prepared to be simultaneously active in more than one goal. Suppose
the natural_number_below_n/2 is a non-deterministic foreign predicate,
backtracking over all natural numbers lower than the first argument. Now
consider the following predicate:
quotient_below_n(Q, N) :- natural_number_below_n(N, N1), natural_number_below_n(N, N2), Q =:= N1 / N2, !.
In this predicate the function natural_number_below_n/2 simultaneously generates solutions for both its invocations.
Non-deterministic foreign functions should be prepared to handle three different calls from Prolog:
- Initial call (
PL_FIRST_CALL
)
Prolog has just created a frame for the foreign function and asks it to produce the first answer. - Redo call (
PL_REDO
)
The previous invocation of the foreign function associated with the current goal indicated it was possible to backtrack. The foreign function should produce the next solution. - Terminate call (
PL_PRUNED
)
The choice point left by the foreign function has been destroyed by a cut. The foreign function is given the opportunity to clean the environment.
Both the context information and the type of call is provided by an
argument of type control_t
appended to the argument list
for deterministic foreign functions. The macro PL_foreign_control()
extracts the type of call from the control argument. The foreign
function can pass a context handle using the PL_retry*()
macros and extract the handle from the extra argument using the
PL_foreign_context*()
macro.
- (return) foreign_t PL_retry(intptr_t value)
- The foreign function succeeds while leaving a choice point. On
backtracking over this goal the foreign function will be called again,
but the control argument now indicates it is a‘Redo' call and the
macro PL_foreign_context()
returns the handle passed via
PL_retry().
This handle is a signed value two bits smaller than a pointer, i.e., 30
or 62 bits (two bits are used for status indication). Defined as
return _PL_retry(n)
. See also PL_succeed(). - (return) foreign_t PL_retry_address(void *)
- As PL_retry(),
but ensures an address as returned by malloc() is correctly recovered by PL_foreign_context_address().
Defined as
return _PL_retry_address(n)
. See also PL_succeed(). - int PL_foreign_control(control_t)
- Extracts the type of call from the control argument. The return values
are described above. Note that the function should be prepared to handle
the
PL_PRUNED
case and should be aware that the other arguments are not valid in this case. - intptr_t PL_foreign_context(control_t)
- Extracts the context from the context argument. If the call type is
PL_FIRST_CALL
the context value is 0L. Otherwise it is the value returned by the last PL_retry() associated with this goal (both if the call type isPL_REDO
orPL_PRUNED
). - void * PL_foreign_context_address(control_t)
- Extracts an address as passed in by PL_retry_address().
- predicate_t PL_foreign_context_predicate(control_t)
-
Fetch the Prolog predicate that is executing this function. Note that if the predicate is imported, the returned predicate refers to the final definition rather than the imported predicate, i.e., the module reported by PL_predicate_info() is the module in which the predicate is defined rather than the module where it was called. See also PL_predicate_info().
Note: If a non-deterministic foreign function returns using PL_succeed()
or PL_fail(),
Prolog assumes the foreign function has cleaned its environment. No
call with control argument PL_PRUNED
will follow.
The code of figure 5 shows a skeleton for a non-deterministic foreign predicate definition.
typedef struct /* define a context structure */ { ... } context; foreign_t my_function(term_t a0, term_t a1, control_t handle) { struct context * ctxt; switch( PL_foreign_control(handle) ) { case PL_FIRST_CALL: ctxt = malloc(sizeof(struct context)); ... PL_retry_address(ctxt); case PL_REDO: ctxt = PL_foreign_context_address(handle); ... PL_retry_address(ctxt); case PL_PRUNED: ctxt = PL_foreign_context_address(handle); ... free(ctxt); PL_succeed; } }