/*
Listeners
- Listeners are used for stream event dispatching. If you want to
- register a method as an event handler in a dispatcher, then you
- must:
+ Listeners are used for stream event dispatching. The usual way to
+ work with them is to use the GET_LISTENER macro which combines the
+ basic Listener algorithm with a Callback_wrapper structure providing
+ a Scheme handle into a member function.
- - declare the method using the DECLARE_LISTENER macro.
+ To register a member function of Foo as an event handler in a
+ dispatcher, you must:
+
+ - declare the function:
class Foo
{
- DECLARE_LISTENER (method);
+ void method (SCM);
...
};
- This macro declares the method to take a SCM as parameter, and to
- return void. It also declares some other stuff that shouldn't be
- touched.
- - implement the method using IMPLEMENT_LISTENER:
- IMPLEMENT_LISTENER (Foo, method)
- void method (SCM e)
+ - implement the method::
+ void Foo::method (SCM e)
{
write ("Foo hears an event!");
}
- - Extract a listener using GET_LISTENER (Foo->method)
+ - Extract a listener using GET_LISTENER (Foo, method)
- Register the method to the dispatcher using Dispatcher::register
Example:
Foo *foo = (...);
- Stream_distributor *d = (...);
- Listener l = GET_LISTENER (foo->method);
- d->register_listener (l, "EventClass");
+ Dispatcher *d = (...);
+ Listener l = foo->GET_LISTENER (Foo, method);
+ d->add_listener (l, ly_symbol2scm ("EventClass"));
Whenever d hears a stream-event ev of class "EventClass",
the implemented procedure is called.
+ GET_LISTENER actually makes use of a member function
+ get_listener (SCM) available in every Smob<...>-derived class.
+ get_listener receives a function getting an object instance and an
+ event and will turn it into a Listener that will (after turning into
+ Scheme), behave as a function receiving an event as its sole
+ argument, with the object instance being the object from which
+ get_listener was called as a member.
+
+ So (p->get_listener (f)).smobbed_copy () is roughly equivalent to
+ (lambda (ev) (f p->self_scm() ev))
+
Limitations:
- - DECLARE_LISTENER currently only works inside smob classes.
+
+ The Callback_wrapper mechanism used in GET_LISTENER works only for
+ classes derived from Smob<...>.
*/
#include "smobs.hh"
-
-typedef struct
+#include "stream-event.hh"
+
+// A listener is essentially any procedure accepting a single argument
+// (namely an event). The class Listener (or rather a smobbed_copy of
+// it) behaves like such a procedure and is composed of a generic
+// callback function accepting two arguments, namely a "target"
+// (usually an engraver instance) and the event. Its Scheme
+// equivalent would be
+//
+// (define (make-listener callback target)
+// (lambda (event) (callback target event)))
+//
+// The class construction is lightweight: as a Simple_smob, this is
+// only converted into Scheme when a smobbed_copy is created.
+
+class Listener : public Simple_smob<Listener>
{
- void (*listen_callback) (void *, SCM);
- void (*mark_callback) (void *);
- bool (*equal_callback) (void *, void *);
-} Listener_function_table;
-
-class Listener
-{
- void *target_;
- Listener_function_table *type_;
+private:
+ SCM callback_;
+ SCM target_;
public:
- Listener (const void *target, Listener_function_table *type);
- Listener (Listener const &other);
- Listener ();
+ static const char type_p_name_[];
- void listen (SCM ev) const;
+ Listener (SCM callback, SCM target)
+ : callback_ (callback), target_ (target) { }
+
+ LY_DECLARE_SMOB_PROC (&Listener::listen, 1, 0, 0)
+ SCM listen (SCM ev)
+ {
+ scm_call_2 (callback_, target_, ev);
+ return SCM_UNSPECIFIED;
+ }
+
+ SCM mark_smob ()
+ {
+ scm_gc_mark (callback_);
+ return target_;
+ }
bool operator == (Listener const &other) const
- { return type_ == other.type_
- && (*type_->equal_callback)((void *) target_, (void *) other.target_ );
+ {
+ return scm_is_eq (callback_, other.callback_)
+ && scm_is_eq (target_, other.target_);
}
- DECLARE_SIMPLE_SMOBS (Listener);
+ static SCM equal_p (SCM a, SCM b)
+ {
+ return *unchecked_unsmob (a) == *unchecked_unsmob (b)
+ ? SCM_BOOL_T : SCM_BOOL_F;
+ }
};
-DECLARE_UNSMOB (Listener, listener);
-
-#define IMPLEMENT_LISTENER(cl, method) \
-void \
-cl :: method ## _callback (void *self, SCM ev) \
-{ \
- cl *s = (cl *)self; \
- s->method (ev); \
-} \
-void \
-cl :: method ## _mark (void *self) \
-{ \
- cl *s = (cl *)self; \
- scm_gc_mark (s->self_scm ()); \
-} \
-bool \
-cl :: method ## _is_equal (void *a, void *b) \
-{ \
- return a == b; \
-} \
-Listener \
-cl :: method ## _listener () const \
-{ \
- static Listener_function_table callbacks; \
- callbacks.listen_callback = &cl::method ## _callback; \
- callbacks.mark_callback = &cl::method ## _mark; \
- callbacks.equal_callback = &cl::method ## _is_equal; \
- return Listener (this, &callbacks); \
-}
-
-#define GET_LISTENER(proc) proc ## _listener ()
-
-#define DECLARE_LISTENER(name) \
- inline void name (SCM); \
- static void name ## _callback (void *self, SCM ev); \
- static void name ## _mark (void *self); \
- static bool name ## _is_equal (void *a, void *b); \
- Listener name ## _listener () const
+
+// A callback wrapper creates a Scheme-callable version of a
+// non-static class member function callback which you can call with a
+// class instance and an event.
+//
+// If you have a class member function
+// void T::my_listen (SCM ev)
+// then Callback_wrapper::make_smob<T, SCM, &T::my_listen> ()
+// will return an SCM function roughly defined as
+// (lambda (target ev) (target->my_listen ev))
+//
+// The setup is slightly tricky since the make_smob quasi-constructor
+// call is a template function templated on the given callback, and so
+// is the trampoline it uses for redirecting the callback. The class
+// itself, however, is not templated as that would create a wagonload
+// of SCM types.
+
+class Callback_wrapper : public Simple_smob<Callback_wrapper>
+{
+ // We use an ordinary function pointer pointing to a trampoline
+ // function (templated on the callback in question) instead of
+ // storing a member function pointer to a common base class like
+ // Smob_core. The additional code for the trampolines is negligible
+ // and the performance implications of using member function
+ // pointers in connection with inheritance are somewhat opaque as
+ // this involves an adjustment of the this pointer from Smob_core to
+ // the scope containing the callback.
+ void (*trampoline_) (SCM, SCM);
+ template <class T, void (T::*callback)(SCM)>
+ static void trampoline (SCM target, SCM ev)
+ {
+ T *t = unsmob<T> (target);
+ LY_ASSERT_SMOB (T, target, 1);
+
+ (t->*callback) (ev);
+ }
+ template <class T, void (T::*callback)(Stream_event *)>
+ static void trampoline (SCM target, SCM event)
+ {
+ // The same, but for callbacks for translator listeners which get
+ // the unpacked event which, in turn, gets protected previously
+
+ T *t = unsmob<T> (target);
+ LY_ASSERT_SMOB (T, target, 1);
+ LY_ASSERT_SMOB (Stream_event, event, 2);
+
+ t->protect_event (event);
+ (t->*callback) (unsmob<Stream_event> (event));
+ }
+
+ Callback_wrapper (void (*trampoline) (SCM, SCM)) : trampoline_ (trampoline)
+ { } // Private constructor, use only in make_smob
+public:
+ LY_DECLARE_SMOB_PROC (&Callback_wrapper::call, 2, 0, 0)
+ SCM call (SCM target, SCM ev)
+ {
+ trampoline_ (target, ev);
+ return SCM_UNSPECIFIED;
+ }
+ // Callback wrappers are for an unchanging entity, so we do the Lisp
+ // creation just once on the first call of make_smob. So we only
+ // get a single Callback_wrapper instance for each differently
+ // templated make_smob call.
+ template <class T, class Arg, void (T::*callback)(Arg)>
+ static SCM make_smob ()
+ {
+ static SCM res = scm_permanent_object
+ (Callback_wrapper (trampoline<T, callback>).smobbed_copy ());
+ return res;
+ }
+};
+
+#define GET_LISTENER(cl, proc) get_listener (Callback_wrapper::make_smob<cl, SCM, &cl::proc> ())
#endif /* LISTENER_HH */