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@c Copyright (C) 2002, 2003, 2004, 2007, 2008, 2009
2
@c Free Software Foundation, Inc.
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@c This is part of the GCC manual.
4
@c For copying conditions, see the file gcc.texi.
5
 
6
@node Type Information
7
@chapter Memory Management and Type Information
8
@cindex GGC
9
@findex GTY
10
 
11
GCC uses some fairly sophisticated memory management techniques, which
12
involve determining information about GCC's data structures from GCC's
13
source code and using this information to perform garbage collection and
14
implement precompiled headers.
15
 
16
A full C parser would be too complicated for this task, so a limited
17
subset of C is interpreted and special markers are used to determine
18
what parts of the source to look at.  All @code{struct} and
19
@code{union} declarations that define data structures that are
20
allocated under control of the garbage collector must be marked.  All
21
global variables that hold pointers to garbage-collected memory must
22
also be marked.  Finally, all global variables that need to be saved
23
and restored by a precompiled header must be marked.  (The precompiled
24
header mechanism can only save static variables if they're scalar.
25
Complex data structures must be allocated in garbage-collected memory
26
to be saved in a precompiled header.)
27
 
28
The full format of a marker is
29
@smallexample
30
GTY (([@var{option}] [(@var{param})], [@var{option}] [(@var{param})] @dots{}))
31
@end smallexample
32
@noindent
33
but in most cases no options are needed.  The outer double parentheses
34
are still necessary, though: @code{GTY(())}.  Markers can appear:
35
 
36
@itemize @bullet
37
@item
38
In a structure definition, before the open brace;
39
@item
40
In a global variable declaration, after the keyword @code{static} or
41
@code{extern}; and
42
@item
43
In a structure field definition, before the name of the field.
44
@end itemize
45
 
46
Here are some examples of marking simple data structures and globals.
47
 
48
@smallexample
49
struct GTY(()) @var{tag}
50
@{
51
  @var{fields}@dots{}
52
@};
53
 
54
typedef struct GTY(()) @var{tag}
55
@{
56
  @var{fields}@dots{}
57
@} *@var{typename};
58
 
59
static GTY(()) struct @var{tag} *@var{list};   /* @r{points to GC memory} */
60
static GTY(()) int @var{counter};        /* @r{save counter in a PCH} */
61
@end smallexample
62
 
63
The parser understands simple typedefs such as
64
@code{typedef struct @var{tag} *@var{name};} and
65
@code{typedef int @var{name};}.
66
These don't need to be marked.
67
 
68
@menu
69
* GTY Options::         What goes inside a @code{GTY(())}.
70
* GGC Roots::           Making global variables GGC roots.
71
* Files::               How the generated files work.
72
* Invoking the garbage collector::   How to invoke the garbage collector.
73
@end menu
74
 
75
@node GTY Options
76
@section The Inside of a @code{GTY(())}
77
 
78
Sometimes the C code is not enough to fully describe the type
79
structure.  Extra information can be provided with @code{GTY} options
80
and additional markers.  Some options take a parameter, which may be
81
either a string or a type name, depending on the parameter.  If an
82
option takes no parameter, it is acceptable either to omit the
83
parameter entirely, or to provide an empty string as a parameter.  For
84
example, @code{@w{GTY ((skip))}} and @code{@w{GTY ((skip ("")))}} are
85
equivalent.
86
 
87
When the parameter is a string, often it is a fragment of C code.  Four
88
special escapes may be used in these strings, to refer to pieces of
89
the data structure being marked:
90
 
91
@cindex % in GTY option
92
@table @code
93
@item %h
94
The current structure.
95
@item %1
96
The structure that immediately contains the current structure.
97
@item %0
98
The outermost structure that contains the current structure.
99
@item %a
100
A partial expression of the form @code{[i1][i2]@dots{}} that indexes
101
the array item currently being marked.
102
@end table
103
 
104
For instance, suppose that you have a structure of the form
105
@smallexample
106
struct A @{
107
  @dots{}
108
@};
109
struct B @{
110
  struct A foo[12];
111
@};
112
@end smallexample
113
@noindent
114
and @code{b} is a variable of type @code{struct B}.  When marking
115
@samp{b.foo[11]}, @code{%h} would expand to @samp{b.foo[11]},
116
@code{%0} and @code{%1} would both expand to @samp{b}, and @code{%a}
117
would expand to @samp{[11]}.
118
 
119
As in ordinary C, adjacent strings will be concatenated; this is
120
helpful when you have a complicated expression.
121
@smallexample
122
@group
123
GTY ((chain_next ("TREE_CODE (&%h.generic) == INTEGER_TYPE"
124
                  " ? TYPE_NEXT_VARIANT (&%h.generic)"
125
                  " : TREE_CHAIN (&%h.generic)")))
126
@end group
127
@end smallexample
128
 
129
The available options are:
130
 
131
@table @code
132
@findex length
133
@item length ("@var{expression}")
134
 
135
There are two places the type machinery will need to be explicitly told
136
the length of an array.  The first case is when a structure ends in a
137
variable-length array, like this:
138
@smallexample
139
struct GTY(()) rtvec_def @{
140
  int num_elem;         /* @r{number of elements} */
141
  rtx GTY ((length ("%h.num_elem"))) elem[1];
142
@};
143
@end smallexample
144
 
145
In this case, the @code{length} option is used to override the specified
146
array length (which should usually be @code{1}).  The parameter of the
147
option is a fragment of C code that calculates the length.
148
 
149
The second case is when a structure or a global variable contains a
150
pointer to an array, like this:
151
@smallexample
152
tree *
153
  GTY ((length ("%h.regno_pointer_align_length"))) regno_decl;
154
@end smallexample
155
In this case, @code{regno_decl} has been allocated by writing something like
156
@smallexample
157
  x->regno_decl =
158
    ggc_alloc (x->regno_pointer_align_length * sizeof (tree));
159
@end smallexample
160
and the @code{length} provides the length of the field.
161
 
162
This second use of @code{length} also works on global variables, like:
163
@verbatim
164
  static GTY((length ("reg_base_value_size")))
165
    rtx *reg_base_value;
166
@end verbatim
167
 
168
@findex skip
169
@item skip
170
 
171
If @code{skip} is applied to a field, the type machinery will ignore it.
172
This is somewhat dangerous; the only safe use is in a union when one
173
field really isn't ever used.
174
 
175
@findex desc
176
@findex tag
177
@findex default
178
@item desc ("@var{expression}")
179
@itemx tag ("@var{constant}")
180
@itemx default
181
 
182
The type machinery needs to be told which field of a @code{union} is
183
currently active.  This is done by giving each field a constant
184
@code{tag} value, and then specifying a discriminator using @code{desc}.
185
The value of the expression given by @code{desc} is compared against
186
each @code{tag} value, each of which should be different.  If no
187
@code{tag} is matched, the field marked with @code{default} is used if
188
there is one, otherwise no field in the union will be marked.
189
 
190
In the @code{desc} option, the ``current structure'' is the union that
191
it discriminates.  Use @code{%1} to mean the structure containing it.
192
There are no escapes available to the @code{tag} option, since it is a
193
constant.
194
 
195
For example,
196
@smallexample
197
struct GTY(()) tree_binding
198
@{
199
  struct tree_common common;
200
  union tree_binding_u @{
201
    tree GTY ((tag ("0"))) scope;
202
    struct cp_binding_level * GTY ((tag ("1"))) level;
203
  @} GTY ((desc ("BINDING_HAS_LEVEL_P ((tree)&%0)"))) xscope;
204
  tree value;
205
@};
206
@end smallexample
207
 
208
In this example, the value of BINDING_HAS_LEVEL_P when applied to a
209
@code{struct tree_binding *} is presumed to be 0 or 1.  If 1, the type
210
mechanism will treat the field @code{level} as being present and if 0,
211
will treat the field @code{scope} as being present.
212
 
213
@findex param_is
214
@findex use_param
215
@item param_is (@var{type})
216
@itemx use_param
217
 
218
Sometimes it's convenient to define some data structure to work on
219
generic pointers (that is, @code{PTR}) and then use it with a specific
220
type.  @code{param_is} specifies the real type pointed to, and
221
@code{use_param} says where in the generic data structure that type
222
should be put.
223
 
224
For instance, to have a @code{htab_t} that points to trees, one would
225
write the definition of @code{htab_t} like this:
226
@smallexample
227
typedef struct GTY(()) @{
228
  @dots{}
229
  void ** GTY ((use_param, @dots{})) entries;
230
  @dots{}
231
@} htab_t;
232
@end smallexample
233
and then declare variables like this:
234
@smallexample
235
  static htab_t GTY ((param_is (union tree_node))) ict;
236
@end smallexample
237
 
238
@findex param@var{n}_is
239
@findex use_param@var{n}
240
@item param@var{n}_is (@var{type})
241
@itemx use_param@var{n}
242
 
243
In more complicated cases, the data structure might need to work on
244
several different types, which might not necessarily all be pointers.
245
For this, @code{param1_is} through @code{param9_is} may be used to
246
specify the real type of a field identified by @code{use_param1} through
247
@code{use_param9}.
248
 
249
@findex use_params
250
@item use_params
251
 
252
When a structure contains another structure that is parameterized,
253
there's no need to do anything special, the inner structure inherits the
254
parameters of the outer one.  When a structure contains a pointer to a
255
parameterized structure, the type machinery won't automatically detect
256
this (it could, it just doesn't yet), so it's necessary to tell it that
257
the pointed-to structure should use the same parameters as the outer
258
structure.  This is done by marking the pointer with the
259
@code{use_params} option.
260
 
261
@findex deletable
262
@item deletable
263
 
264
@code{deletable}, when applied to a global variable, indicates that when
265
garbage collection runs, there's no need to mark anything pointed to
266
by this variable, it can just be set to @code{NULL} instead.  This is used
267
to keep a list of free structures around for re-use.
268
 
269
@findex if_marked
270
@item if_marked ("@var{expression}")
271
 
272
Suppose you want some kinds of object to be unique, and so you put them
273
in a hash table.  If garbage collection marks the hash table, these
274
objects will never be freed, even if the last other reference to them
275
goes away.  GGC has special handling to deal with this: if you use the
276
@code{if_marked} option on a global hash table, GGC will call the
277
routine whose name is the parameter to the option on each hash table
278
entry.  If the routine returns nonzero, the hash table entry will
279
be marked as usual.  If the routine returns zero, the hash table entry
280
will be deleted.
281
 
282
The routine @code{ggc_marked_p} can be used to determine if an element
283
has been marked already; in fact, the usual case is to use
284
@code{if_marked ("ggc_marked_p")}.
285
 
286
@findex mark_hook
287
@item mark_hook ("@var{hook-routine-name}")
288
 
289
If provided for a structure or union type, the given
290
@var{hook-routine-name} (between double-quotes) is the name of a
291
routine called when the garbage collector has just marked the data as
292
reachable. This routine should not change the data, or call any ggc
293
routine. Its only argument is a pointer to the just marked (const)
294
structure or union.
295
 
296
@findex maybe_undef
297
@item maybe_undef
298
 
299
When applied to a field, @code{maybe_undef} indicates that it's OK if
300
the structure that this fields points to is never defined, so long as
301
this field is always @code{NULL}.  This is used to avoid requiring
302
backends to define certain optional structures.  It doesn't work with
303
language frontends.
304
 
305
@findex nested_ptr
306
@item nested_ptr (@var{type}, "@var{to expression}", "@var{from expression}")
307
 
308
The type machinery expects all pointers to point to the start of an
309
object.  Sometimes for abstraction purposes it's convenient to have
310
a pointer which points inside an object.  So long as it's possible to
311
convert the original object to and from the pointer, such pointers
312
can still be used.  @var{type} is the type of the original object,
313
the @var{to expression} returns the pointer given the original object,
314
and the @var{from expression} returns the original object given
315
the pointer.  The pointer will be available using the @code{%h}
316
escape.
317
 
318
@findex chain_next
319
@findex chain_prev
320
@findex chain_circular
321
@item chain_next ("@var{expression}")
322
@itemx chain_prev ("@var{expression}")
323
@itemx chain_circular ("@var{expression}")
324
 
325
It's helpful for the type machinery to know if objects are often
326
chained together in long lists; this lets it generate code that uses
327
less stack space by iterating along the list instead of recursing down
328
it.  @code{chain_next} is an expression for the next item in the list,
329
@code{chain_prev} is an expression for the previous item.  For singly
330
linked lists, use only @code{chain_next}; for doubly linked lists, use
331
both.  The machinery requires that taking the next item of the
332
previous item gives the original item.  @code{chain_circular} is similar
333
to @code{chain_next}, but can be used for circular single linked lists.
334
 
335
@findex reorder
336
@item reorder ("@var{function name}")
337
 
338
Some data structures depend on the relative ordering of pointers.  If
339
the precompiled header machinery needs to change that ordering, it
340
will call the function referenced by the @code{reorder} option, before
341
changing the pointers in the object that's pointed to by the field the
342
option applies to.  The function must take four arguments, with the
343
signature @samp{@w{void *, void *, gt_pointer_operator, void *}}.
344
The first parameter is a pointer to the structure that contains the
345
object being updated, or the object itself if there is no containing
346
structure.  The second parameter is a cookie that should be ignored.
347
The third parameter is a routine that, given a pointer, will update it
348
to its correct new value.  The fourth parameter is a cookie that must
349
be passed to the second parameter.
350
 
351
PCH cannot handle data structures that depend on the absolute values
352
of pointers.  @code{reorder} functions can be expensive.  When
353
possible, it is better to depend on properties of the data, like an ID
354
number or the hash of a string instead.
355
 
356
@findex special
357
@item special ("@var{name}")
358
 
359
The @code{special} option is used to mark types that have to be dealt
360
with by special case machinery.  The parameter is the name of the
361
special case.  See @file{gengtype.c} for further details.  Avoid
362
adding new special cases unless there is no other alternative.
363
@end table
364
 
365
@node GGC Roots
366
@section Marking Roots for the Garbage Collector
367
@cindex roots, marking
368
@cindex marking roots
369
 
370
In addition to keeping track of types, the type machinery also locates
371
the global variables (@dfn{roots}) that the garbage collector starts
372
at.  Roots must be declared using one of the following syntaxes:
373
 
374
@itemize @bullet
375
@item
376
@code{extern GTY(([@var{options}])) @var{type} @var{name};}
377
@item
378
@code{static GTY(([@var{options}])) @var{type} @var{name};}
379
@end itemize
380
@noindent
381
The syntax
382
@itemize @bullet
383
@item
384
@code{GTY(([@var{options}])) @var{type} @var{name};}
385
@end itemize
386
@noindent
387
is @emph{not} accepted.  There should be an @code{extern} declaration
388
of such a variable in a header somewhere---mark that, not the
389
definition.  Or, if the variable is only used in one file, make it
390
@code{static}.
391
 
392
@node Files
393
@section Source Files Containing Type Information
394
@cindex generated files
395
@cindex files, generated
396
 
397
Whenever you add @code{GTY} markers to a source file that previously
398
had none, or create a new source file containing @code{GTY} markers,
399
there are three things you need to do:
400
 
401
@enumerate
402
@item
403
You need to add the file to the list of source files the type
404
machinery scans.  There are four cases:
405
 
406
@enumerate a
407
@item
408
For a back-end file, this is usually done
409
automatically; if not, you should add it to @code{target_gtfiles} in
410
the appropriate port's entries in @file{config.gcc}.
411
 
412
@item
413
For files shared by all front ends, add the filename to the
414
@code{GTFILES} variable in @file{Makefile.in}.
415
 
416
@item
417
For files that are part of one front end, add the filename to the
418
@code{gtfiles} variable defined in the appropriate
419
@file{config-lang.in}.  For C, the file is @file{c-config-lang.in}.
420
Headers should appear before non-headers in this list.
421
 
422
@item
423
For files that are part of some but not all front ends, add the
424
filename to the @code{gtfiles} variable of @emph{all} the front ends
425
that use it.
426
@end enumerate
427
 
428
@item
429
If the file was a header file, you'll need to check that it's included
430
in the right place to be visible to the generated files.  For a back-end
431
header file, this should be done automatically.  For a front-end header
432
file, it needs to be included by the same file that includes
433
@file{gtype-@var{lang}.h}.  For other header files, it needs to be
434
included in @file{gtype-desc.c}, which is a generated file, so add it to
435
@code{ifiles} in @code{open_base_file} in @file{gengtype.c}.
436
 
437
For source files that aren't header files, the machinery will generate a
438
header file that should be included in the source file you just changed.
439
The file will be called @file{gt-@var{path}.h} where @var{path} is the
440
pathname relative to the @file{gcc} directory with slashes replaced by
441
@verb{|-|}, so for example the header file to be included in
442
@file{cp/parser.c} is called @file{gt-cp-parser.c}.  The
443
generated header file should be included after everything else in the
444
source file.  Don't forget to mention this file as a dependency in the
445
@file{Makefile}!
446
 
447
@end enumerate
448
 
449
For language frontends, there is another file that needs to be included
450
somewhere.  It will be called @file{gtype-@var{lang}.h}, where
451
@var{lang} is the name of the subdirectory the language is contained in.
452
 
453
Plugins can add additional root tables.  Run the @code{gengtype}
454
utility in plugin mode as @code{gengtype -P pluginout.h @var{source-dir}
455
@var{file-list} @var{plugin*.c}} with your plugin files
456
@var{plugin*.c} using @code{GTY} to generate the @var{pluginout.h} file.
457
The GCC build tree is needed to be present in that mode.
458
 
459
 
460
@node Invoking the garbage collector
461
@section How to invoke the garbage collector
462
@cindex garbage collector, invocation
463
@findex ggc_collect
464
 
465
The GCC garbage collector GGC is only invoked explicitly. In contrast
466
with many other garbage collectors, it is not implicitly invoked by
467
allocation routines when a lot of memory has been consumed. So the
468
only way to have GGC reclaim storage it to call the @code{ggc_collect}
469
function explicitly. This call is an expensive operation, as it may
470
have to scan the entire heap. Beware that local variables (on the GCC
471
call stack) are not followed by such an invocation (as many other
472
garbage collectors do): you should reference all your data from static
473
or external @code{GTY}-ed variables, and it is advised to call
474
@code{ggc_collect} with a shallow call stack. The GGC is an exact mark
475
and sweep garbage collector (so it does not scan the call stack for
476
pointers). In practice GCC passes don't often call @code{ggc_collect}
477
themselves, because it is called by the pass manager between passes.

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