/*
+ Smobs are GUILEs mechanism of exporting C(++) objects to the Scheme
+ world. They are documented in the GUILE manual.
- Each smobbed C-object may only be interfaced by a single, unique
- smob cell. Therefore NEVER provide a public function that will
- create a smobcell for an existing object pointer.
- There are two ways to reach this goal:
+ In LilyPond, smobs are created from C++ objects through macros.
+ There are two types of smob objects.
- simple smobs:
+ 1. Simple smobs are intended for simple objects like numbers:
+ immutable objects that can be copied without change of meaning.
- - Data structures that are encapsulated by GUILE. If constructed
- through GUILE, you may only store them as protected SCMs, and may
- not copy the pointer the object itself. Typical interface
+ To obtain an SCM version of a simple smob, use the member function
+ SCM smobbed_copy ().
- struct Ssmob {
- public:
- SCM make_copy_scm () const {
- Ssmob *sp = new Ssmob (*this);
- return sp->smobbed_self ();
- }
- };
+ Simple smobs are created by adding the
+ DECLARE_SIMPLE_SMOBS(Classname,) to the declaration
- or
+ 2. Complex smobs are objects that have an identity. These objects
+ carry this identity in the form of a self_scm () method, which is a
+ SCM pointer to the object itself.
- struct Ssmob {
- public:
- DECLARE_SIMPLE_SMOBS;
- static SCM make_scm (void initdata) {
- Ssmob * sp = new Ssmob (initdata);
- return sp->smobbed_self ();
- }
- private:
- Ssmob (initdata);
- }
-
- Objets of type Ssmob may live on the stack, or on the heap, or as
- part of other objects. However, as soon as the object is smobbed,
- by definition (by definition of the constructors, in this example),
- lives on the heap as a separate object
-
- - complex smobs: data structures whose identity is referenced and
- stored both in C++ and in GUILE form. From going from C++ to GUILE,
- you use smob_ptr->self_scm_
-
- class Csmob {
- DECLARE_SMOBS;
- Csmob () { smobify_self (); }
- Csmob (Csmob const & s) {
- // don't copy self_scm_
+ The constructor for a complex smob should have 3 steps:
+
+ * initialize all SCM members to a non-immediate value (like SCM_EOL)
+
+ * call smobify_self ()
+
+ * initialize SCM members
+
+ For example,
+
+ Complex_smob::Complex_smob () {
+ scm_member_ = SCM_EOL;
smobify_self ();
+ scm_member_ = <..what you want to store..>
}
- };
- A complex smob is a C++ class with static member functions to glue
- it with Scheme. Every instance carries SELF_SCM_, a pointer to the
- unique Scheme smob cell of itself.
+ after construction, the self_scm () field of a complex smob is
+ protected from Garbage Collection. This protection should be
+ removed once the object is put into another (reachable) Scheme data
+ structure, i.e.
- Upon creation, SELF_SCM_ is protected, so if you choose to store it
- in C++ structures, you need to do
+ Complex_smob *p = new Complex_smob;
+ list = scm_cons (p->self_scm (), list);
+ scm_gc_unprotect_object (p->self_scm ());
- class Bla {
- Csmob *ptr;
- ~Bla () { scm_gc_unprotect_object (ptr->self_scm_); }
-
- };
+ Complex smobs are made with DECLARE_SMOBS (Classname,) in the class
+ declaration.
- If protection is done via GUILE, don't forget to unprotect AFTER putting
- stuff into the GUILE datastructs
+ CALLING INTERFACE
+
+ Common public methods to C++ smob objects:
+ unsmob (SCM x) - unpacks X and returns pointer to the C++ object, or 0
+ if it has the wrong type.
- guile_data = gh_cons (ptr->self_scm_, guile_data);
- ptr->self_scm_
+ SCM equal_p (SCM a, SCM b) - compare A and B. Returns a Scheme boolean
- Since GUILE takes care of the freeing the object, the destructor
- is private.
+
+ IMPLEMENTATION
+
+ For implementating a class, the following should be provided
- DUMMY a thing to make sure compiles only work if this header
- if this file is there.
+ - an equal_p () function (a default is in the
+ IMPLEMENT_DEFAULT_EQUAL_P macro in ly-smobs.icc)
+ - mark_smob () function, that calls scm_gc_mark () on all Scheme
+ objects in the class
- WARNING:
+ - a print_smob () function, that displays a representation for
+ debugging purposes
- smobify_self () might trigger a GC, so make sure that objects are
- sane when you do smobify_self ().
+ - A call to one of the IMPLEMENT_SMOBS or IMPLEMENT_SIMPLE_SMOBS macros
+ from file "ly-smobs.icc"
*/
-#define DECLARE_SIMPLE_SMOBS(CL,dummy) \
-protected: \
- friend class Non_existant_class ; \
- SCM smobbed_self () const; \
-private:\
+#define DECLARE_SIMPLE_SMOBS(CL, dummy) \
+public: \
+ SCM smobbed_copy () const; \
+DECLARE_BASE_SMOBS(CL)
+
+
+#define DECLARE_BASE_SMOBS(CL) \
+ friend class Non_existent_class; \
+private: \
static scm_t_bits smob_tag_; \
static SCM mark_smob (SCM); \
static size_t free_smob (SCM s); \
#define DECLARE_SMOBS(CL,dummy) \
- DECLARE_SIMPLE_SMOBS (CL,dammy) \
+ DECLARE_BASE_SMOBS (CL) \
protected:\
virtual ~CL ();\
SCM unprotected_smobify_self ();\
private: \
- SCM smobify_self (); \
+ void smobify_self (); \
SCM self_scm_; \
public: \
SCM self_scm () const { return self_scm_; } \
return CL::unsmob (s); \
}
-
+#define DECLARE_TYPE_P(CL) extern SCM CL ## _type_p_proc
#endif /* SMOBS_HH */