2 This file is part of LilyPond, the GNU music typesetter.
4 Copyright (C) 1999--2015 Han-Wen Nienhuys <hanwen@xs4all.nl>
6 LilyPond is free software: you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation, either version 3 of the License, or
9 (at your option) any later version.
11 LilyPond is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with LilyPond. If not, see <http://www.gnu.org/licenses/>.
23 #include "lily-guile.hh"
28 Smobs are GUILEs mechanism of exporting C(++) objects to the Scheme
29 world. They are documented in the GUILE manual.
32 In LilyPond, C++ objects can be placed under the control of GUILE's
33 type system and garbage collection mechanism by inheriting from one
34 of several Smob base classes.
36 There are two types of smob objects.
38 1. Simple smobs are intended for simple objects like numbers:
39 immutable objects that can be copied without change of meaning.
41 To obtain an SCM version of a simple smob, use the member function
44 Simple smobs are created by deriving from Simple_smob<Classname>.
46 A simple smob is only optionally under the reign of the GUILE
47 garbage collector: its usual life time is that of a normal C++
48 object. While a smobbed_copy () is fully under control of the
49 garbage collector and will have its mark_smob function called during
50 garbage collection, an automatic variable of this type will not have
51 mark_smob called, but rather have its memory image in the call stack
52 scanned for contained non-immediate SCM values. Anything requiring
53 more complex mark_smob behavior is not suitable for a simple smob.
55 When you create a smobbed_copy, the _copy_ is fully managed by the
56 GUILE memory system. As a corollary, multiple smobbed_copy calls
57 yield multiple GUILE objects generally not eq? to each other.
59 2. Complex smobs are objects that have an identity. These objects
60 carry this identity in the form of a self_scm () method, which is a
61 SCM pointer to the object itself. Complex smobs are always under
62 control of the GUILE memory system.
64 The constructor for a complex smob should have 3 steps:
66 * initialize all SCM members to an immediate value (like SCM_EOL)
68 * call smobify_self ()
70 * initialize SCM members
74 Complex_smob::Complex_smob : public Smob<Complex_smob> () {
75 scm_member_ = SCM_EOL;
77 scm_member_ = <..what you want to store..>
80 after construction, the self_scm () field of a complex smob is
81 protected from Garbage Collection. This protection should be
82 removed once the object is put into another (reachable) Scheme data
85 Complex_smob *p = new Complex_smob;
86 list = scm_cons (p->self_scm (), list);
89 Since unprotect returns the SCM object itself, this particular case
92 Complex_smob *p = new Complex_smob;
93 list = scm_cons (p->unprotect (), list);
95 Complex smobs are created by deriving from Smob<Classname>.
99 Common public methods to C++ smob objects:
101 - unsmob (SCM x) - unpacks X and returns pointer to the C++ object,
102 or 0 if it has the wrong type. This can be used as a boolean
103 condition at C++ level.
104 - smob_p (SCM x) returns #t or #f at Scheme level.
108 For implementating a class, the following public members can be
109 provided in the top class itself:
111 - SCM equal_p (SCM a, SCM b) - compare A and B. Returns a Scheme
112 boolean. If the class does not define this function, equal? will
113 be equivalent to eq?. The function will only be called when both
114 objects are of the respective type and not eq? to each other.
116 - mark_smob () function, that calls scm_gc_mark () on all Scheme
117 objects in the class. If the class does not define this function,
118 it must not contain non-immediate Scheme values.
120 - a print_smob () function, that displays a representation for
121 debugging purposes. If the class does not define this function,
122 the output will be #<Classname> when printing.
124 - a static const type_p_name_[] string set to something like
125 "ly:grob?". When provided, an accordingly named function for
126 checking for the given smob type will be available in Scheme.
130 // Initialization class. Create a variable or static data member of
131 // this type at global scope (or creation will happen too late for
132 // Scheme initialization), initialising with a function to be called.
133 // Reference somewhere (like in the constructor of the containing
134 // class) to make sure the variable is actually instantiated.
139 Scm_init (void (*fun) (void))
141 add_scm_init_func (fun);
145 template <class Super>
148 static scm_t_bits smob_tag_;
149 static Scm_init scm_init_;
150 static void init (void);
151 static string smob_name_;
152 static Super *unchecked_unsmob (SCM s)
154 return reinterpret_cast<Super *> (SCM_SMOB_DATA (s));
157 // reference scm_init_ in smob_tag which is sure to be called. The
158 // constructor, in contrast, may not be called at all in classes
160 static scm_t_bits smob_tag () { (void) scm_init_; return smob_tag_; }
162 static SCM register_ptr (Super *p);
163 static Super *unregister_ptr (SCM obj);
165 // Those fallbacks are _only_ for internal use by Smob_base. They
166 // are characterized by no knowledge about the implemented type
167 // apart from the type's name. Overriding them as a template
168 // specialization is _not_ intended since a type-dependent
169 // implementation will in general need access to possibly private
170 // parts of the Super class. So any class-dependent override should
171 // be done by redefining the respective function in the Super class
172 // (where it will mask the private template member) rather than
173 // specializing a different template function/pointer.
175 // Most default functions are do-nothings. void init() will
176 // recognize their address when not overriden and will then refrain
177 // altogether from passing the the respective callbacks to GUILE.
178 SCM mark_smob (void);
179 static SCM mark_trampoline (SCM); // Used for calling mark_smob
180 static size_t free_smob (SCM obj);
181 static SCM equal_p (SCM, SCM);
182 int print_smob (SCM, scm_print_state *);
183 static int print_trampoline (SCM, SCM, scm_print_state *);
185 // type_p_name_ can be overriden in the Super class with a static
186 // const char [] string. This requires both a declaration in the
187 // class as well as a single instantiation outside. Using a
188 // template specialization for supplying a different string name
189 // right in Smob_base<Super> itself seems tempting, but the C++
190 // rules would then require a specialization declaration at the
191 // class definition site as well as a specialization instantiation
192 // in a single compilation unit. That requires just as much source
193 // code maintenance while being harder to understand and quite
194 // trickier in its failure symptoms when things go wrong. So we
195 // just use a static zero as "not here" indication.
196 static const int type_p_name_ = 0;
198 // LY_DECLARE_SMOB_PROC is used in the Super class definition for
199 // making a smob callable like a function. Declaration has to be
200 // public. It may be either be completed with a semicolon in which
201 // case a definition of the member function smob_proc has to be done
202 // outside of the class body, or the semicolon is left off and an
203 // inline function body is added immediately below. It would be
204 // nice if this were a non-static member function but it would seem
205 // tricky to do the required trampolining for unsmobbing the first
206 // argument of the callback and using it as a this pointer.
207 #define LY_DECLARE_SMOB_PROC(REQ, OPT, VAR, ARGLIST) \
208 static const int smob_proc_signature_ = ((REQ)<<8)|((OPT)<<4)|(VAR); \
209 static SCM smob_proc ARGLIST
211 // a separate LY_DEFINE_SMOB_PROC seems sort of pointless as it
212 // would just result in SCM CLASS::smob_proc ARGLIST
214 // The default case without function functionality is recognized by
215 // smob_proc_signature being -1.
216 static const int smob_proc = 0;
217 static const int smob_proc_signature_ = -1;
220 static bool is_smob (SCM s)
222 return SCM_SMOB_PREDICATE (smob_tag (), s);
224 static SCM smob_p (SCM s)
226 return is_smob (s) ? SCM_BOOL_T : SCM_BOOL_F;
228 static Super *unsmob (SCM s)
230 return is_smob (s) ? Super::unchecked_unsmob (s) : 0;
235 template <class Super>
236 class Simple_smob : public Smob_base<Super> {
238 static size_t free_smob (SCM obj)
240 delete Smob_base<Super>::unregister_ptr (obj);
243 SCM smobbed_copy () const
245 Super *p = new Super(*static_cast<const Super *> (this));
246 return Smob_base<Super>::register_ptr (p);
250 void protect_smob (SCM smob, SCM *prot_cons);
251 void unprotect_smob (SCM smob, SCM *prot_cons);
253 template <class Super>
254 class Smob : public Smob_base<Super> {
257 SCM protection_cons_;
258 Smob (const Smob<Super> &); // Do not define! Not copyable!
260 Smob () : self_scm_ (SCM_UNDEFINED), protection_cons_ (SCM_EOL) { };
262 static size_t free_smob (SCM obj)
264 delete Smob_base<Super>::unregister_ptr (obj);
267 SCM unprotected_smobify_self ()
269 SCM s = Smob_base<Super>::register_ptr (static_cast<Super *> (this));
275 protect_smob (self_scm_, &protection_cons_);
277 void smobify_self () {
278 protect_smob (unprotected_smobify_self (), &protection_cons_);
283 unprotect_smob (s, &protection_cons_);
286 SCM self_scm () const { return self_scm_; }
289 extern bool parsed_objects_should_be_dead;
292 static vector<parsed_dead *> elements;
297 data = SCM_UNDEFINED;
301 parsed_dead () : data (SCM_UNDEFINED)
303 elements.push_back (this);
305 void checkin (SCM arg) { data = arg; }
306 static SCM readout ();
309 // This does not appear to work with GUILEv2's garbage collector:
310 // Objects are found in the GC phase but printing them will crash at
311 // least some, so they are apparently not protected in spite of being
312 // included in the GC scans. So it would appear that scanning smobs
313 // is not equivalent to marking them. Ugh.
314 #if !defined(NDEBUG) && !GUILEV2
315 #define ASSERT_LIVE_IS_ALLOWED(arg) \
317 static parsed_dead pass_here; \
318 if (parsed_objects_should_be_dead) \
319 pass_here.checkin (arg); \
322 #define ASSERT_LIVE_IS_ALLOWED(arg) do { (void)(arg); } \
327 #endif /* SMOBS_HH */