2001-04-09 Andrew MacLeod <amacleod@redhat.com>
[official-gcc.git] / gcc / ggc-simple.c
blob457b420f2607a077b867e8525c5b84b1c6960d75
1 /* Simple garbage collection for the GNU compiler.
2 Copyright (C) 1998, 1999, 2000, 2001 Free Software Foundation, Inc.
4 This file is part of GNU CC.
6 GNU CC 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 2, or (at your option)
9 any later version.
11 GNU CC 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 GNU CC; see the file COPYING. If not, write to
18 the Free Software Foundation, 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
21 #include "config.h"
22 #include "system.h"
23 #include "rtl.h"
24 #include "tree.h"
25 #include "tm_p.h"
26 #include "flags.h"
27 #include "varray.h"
28 #include "ggc.h"
29 #include "timevar.h"
31 /* Debugging flags. */
33 /* Zap memory before freeing to catch dangling pointers. */
34 #define GGC_POISON
36 /* Collect statistics on how bushy the search tree is. */
37 #undef GGC_BALANCE
39 /* Perform collection every time ggc_collect is invoked. Otherwise,
40 collection is performed only when a significant amount of memory
41 has been allocated since the last collection. */
42 #undef GGC_ALWAYS_COLLECT
44 /* Always verify that the to-be-marked memory is collectable. */
45 #undef GGC_ALWAYS_VERIFY
47 #ifdef ENABLE_GC_CHECKING
48 #define GGC_POISON
49 #define GGC_ALWAYS_VERIFY
50 #endif
51 #ifdef ENABLE_GC_ALWAYS_COLLECT
52 #define GGC_ALWAYS_COLLECT
53 #endif
55 #ifndef HOST_BITS_PER_PTR
56 #define HOST_BITS_PER_PTR HOST_BITS_PER_LONG
57 #endif
59 /* We'd like a balanced tree, but we don't really want to pay for the
60 cost of keeping the tree balanced. We'll settle for the next best
61 thing -- nearly balanced.
63 In this context, the most natural key is the node pointer itself,
64 but due to the way memory managers work, we'd be virtually certain
65 to wind up with a completely degenerate straight line. What's needed
66 is to make something more variable, and yet predictable, be more
67 significant in the comparison.
69 The handiest source of variability is the low bits of the pointer
70 value itself. Any sort of bit/byte swap would do, but such machine
71 specific operations are not handy, and we don't want to put that much
72 effort into it. */
74 #define PTR_KEY(p) ((size_t)p << (HOST_BITS_PER_PTR - 8) \
75 | ((size_t)p & 0xff00) << (HOST_BITS_PER_PTR - 24) \
76 | (size_t)p >> 16)
78 /* GC'able memory; a node in a binary search tree. */
80 struct ggc_mem
82 /* A combination of the standard left/right nodes, indexable by `<'. */
83 struct ggc_mem *sub[2];
85 unsigned int mark : 1;
86 unsigned int context : 7;
87 unsigned int size : 24;
89 /* Make sure the data is reasonably aligned. */
90 union {
91 HOST_WIDEST_INT i;
92 #ifdef HAVE_LONG_DOUBLE
93 long double d;
94 #else
95 double d;
96 #endif
97 } u;
100 static struct globals
102 /* Root of the object tree. */
103 struct ggc_mem *root;
105 /* Data bytes currently allocated. */
106 size_t allocated;
108 /* Data objects currently allocated. */
109 size_t objects;
111 /* Data bytes allocated at time of last GC. */
112 size_t allocated_last_gc;
114 /* Current context level. */
115 int context;
116 } G;
118 /* Skip garbage collection if the current allocation is not at least
119 this factor times the allocation at the end of the last collection.
120 In other words, total allocation must expand by (this factor minus
121 one) before collection is performed. */
122 #define GGC_MIN_EXPAND_FOR_GC (1.3)
124 /* Bound `allocated_last_gc' to 4MB, to prevent the memory expansion
125 test from triggering too often when the heap is small. */
126 #define GGC_MIN_LAST_ALLOCATED (4 * 1024 * 1024)
128 /* Local function prototypes. */
130 static void tree_insert PARAMS ((struct ggc_mem *));
131 static int tree_lookup PARAMS ((struct ggc_mem *));
132 static void clear_marks PARAMS ((struct ggc_mem *));
133 static void sweep_objs PARAMS ((struct ggc_mem **));
134 static void ggc_pop_context_1 PARAMS ((struct ggc_mem *, int));
136 /* For use from debugger. */
137 extern void debug_ggc_tree PARAMS ((struct ggc_mem *, int));
139 #ifdef GGC_BALANCE
140 extern void debug_ggc_balance PARAMS ((void));
141 #endif
142 static void tally_leaves PARAMS ((struct ggc_mem *, int, size_t *, size_t *));
144 /* Insert V into the search tree. */
146 static inline void
147 tree_insert (v)
148 struct ggc_mem *v;
150 size_t v_key = PTR_KEY (v);
151 struct ggc_mem *p, **pp;
153 for (pp = &G.root, p = *pp; p ; p = *pp)
155 size_t p_key = PTR_KEY (p);
156 pp = &p->sub[v_key < p_key];
158 *pp = v;
161 /* Return true if V is in the tree. */
163 static inline int
164 tree_lookup (v)
165 struct ggc_mem *v;
167 size_t v_key = PTR_KEY (v);
168 struct ggc_mem *p = G.root;
170 while (p)
172 size_t p_key = PTR_KEY (p);
173 if (p == v)
174 return 1;
175 p = p->sub[v_key < p_key];
178 return 0;
181 /* Alloc SIZE bytes of GC'able memory. If ZERO, clear the memory. */
183 void *
184 ggc_alloc (size)
185 size_t size;
187 struct ggc_mem *x;
189 x = (struct ggc_mem *) xmalloc (offsetof (struct ggc_mem, u) + size);
190 x->sub[0] = NULL;
191 x->sub[1] = NULL;
192 x->mark = 0;
193 x->context = G.context;
194 x->size = size;
196 #ifdef GGC_POISON
197 memset (&x->u, 0xaf, size);
198 #endif
200 tree_insert (x);
201 G.allocated += size;
202 G.objects += 1;
204 return &x->u;
207 /* Mark a node. */
210 ggc_set_mark (p)
211 const void *p;
213 struct ggc_mem *x;
215 x = (struct ggc_mem *) ((const char *)p - offsetof (struct ggc_mem, u));
216 #ifdef GGC_ALWAYS_VERIFY
217 if (! tree_lookup (x))
218 abort ();
219 #endif
221 if (x->mark)
222 return 1;
224 x->mark = 1;
225 G.allocated += x->size;
226 G.objects += 1;
228 return 0;
231 /* Return the size of the gc-able object P. */
233 size_t
234 ggc_get_size (p)
235 const void *p;
237 struct ggc_mem *x
238 = (struct ggc_mem *) ((const char *)p - offsetof (struct ggc_mem, u));
239 return x->size;
242 /* Unmark all objects. */
244 static void
245 clear_marks (x)
246 struct ggc_mem *x;
248 x->mark = 0;
249 if (x->sub[0])
250 clear_marks (x->sub[0]);
251 if (x->sub[1])
252 clear_marks (x->sub[1]);
255 /* Free all objects in the current context that are not marked. */
257 static void
258 sweep_objs (root)
259 struct ggc_mem **root;
261 struct ggc_mem *x = *root;
262 if (!x)
263 return;
265 sweep_objs (&x->sub[0]);
266 sweep_objs (&x->sub[1]);
268 if (! x->mark && x->context >= G.context)
270 struct ggc_mem *l, *r;
272 l = x->sub[0];
273 r = x->sub[1];
274 if (!l)
275 *root = r;
276 else if (!r)
277 *root = l;
278 else if (!l->sub[1])
280 *root = l;
281 l->sub[1] = r;
283 else if (!r->sub[0])
285 *root = r;
286 r->sub[0] = l;
288 else
290 *root = l;
291 do {
292 root = &l->sub[1];
293 } while ((l = *root) != NULL);
294 *root = r;
297 #ifdef GGC_POISON
298 memset (&x->u, 0xA5, x->size);
299 #endif
301 free (x);
305 /* The top level mark-and-sweep routine. */
307 void
308 ggc_collect ()
310 #ifndef GGC_ALWAYS_COLLECT
311 if (G.allocated < GGC_MIN_EXPAND_FOR_GC * G.allocated_last_gc)
312 return;
313 #endif
315 #ifdef GGC_BALANCE
316 debug_ggc_balance ();
317 #endif
319 timevar_push (TV_GC);
320 if (!quiet_flag)
321 fprintf (stderr, " {GC %luk -> ", (unsigned long)G.allocated / 1024);
323 G.allocated = 0;
324 G.objects = 0;
326 clear_marks (G.root);
327 ggc_mark_roots ();
328 sweep_objs (&G.root);
330 G.allocated_last_gc = G.allocated;
331 if (G.allocated_last_gc < GGC_MIN_LAST_ALLOCATED)
332 G.allocated_last_gc = GGC_MIN_LAST_ALLOCATED;
334 timevar_pop (TV_GC);
336 if (!quiet_flag)
337 fprintf (stderr, "%luk}", (unsigned long) G.allocated / 1024);
339 #ifdef GGC_BALANCE
340 debug_ggc_balance ();
341 #endif
344 /* Called once to initialize the garbage collector. */
346 void
347 init_ggc ()
349 G.allocated_last_gc = GGC_MIN_LAST_ALLOCATED;
352 /* Start a new GGC context. Memory allocated in previous contexts
353 will not be collected while the new context is active. */
355 void
356 ggc_push_context ()
358 G.context++;
360 /* We only allocated 7 bits in the node for the context. This
361 should be more than enough. */
362 if (G.context >= 128)
363 abort ();
366 /* Finish a GC context. Any uncollected memory in the new context
367 will be merged with the old context. */
369 void
370 ggc_pop_context ()
372 G.context--;
373 if (G.root)
374 ggc_pop_context_1 (G.root, G.context);
377 static void
378 ggc_pop_context_1 (x, c)
379 struct ggc_mem *x;
380 int c;
382 if (x->context > c)
383 x->context = c;
384 if (x->sub[0])
385 ggc_pop_context_1 (x->sub[0], c);
386 if (x->sub[1])
387 ggc_pop_context_1 (x->sub[1], c);
390 /* Dump a tree. */
392 void
393 debug_ggc_tree (p, indent)
394 struct ggc_mem *p;
395 int indent;
397 int i;
399 if (!p)
401 fputs ("(nil)\n", stderr);
402 return;
405 if (p->sub[0])
406 debug_ggc_tree (p->sub[0], indent + 1);
408 for (i = 0; i < indent; ++i)
409 putc (' ', stderr);
410 fprintf (stderr, "%lx %p\n", (unsigned long)PTR_KEY (p), p);
412 if (p->sub[1])
413 debug_ggc_tree (p->sub[1], indent + 1);
416 #ifdef GGC_BALANCE
417 /* Collect tree balance metrics */
419 #include <math.h>
421 void
422 debug_ggc_balance ()
424 size_t nleaf, sumdepth;
426 nleaf = sumdepth = 0;
427 tally_leaves (G.root, 0, &nleaf, &sumdepth);
429 fprintf (stderr, " {B %.2f,%.1f,%.1f}",
430 /* In a balanced tree, leaf/node should approach 1/2. */
431 (float)nleaf / (float)G.objects,
432 /* In a balanced tree, average leaf depth should approach lg(n). */
433 (float)sumdepth / (float)nleaf,
434 log ((double) G.objects) / M_LN2);
436 #endif
438 /* Used by debug_ggc_balance, and also by ggc_print_statistics. */
439 static void
440 tally_leaves (x, depth, nleaf, sumdepth)
441 struct ggc_mem *x;
442 int depth;
443 size_t *nleaf;
444 size_t *sumdepth;
446 if (! x->sub[0] && !x->sub[1])
448 *nleaf += 1;
449 *sumdepth += depth;
451 else
453 if (x->sub[0])
454 tally_leaves (x->sub[0], depth + 1, nleaf, sumdepth);
455 if (x->sub[1])
456 tally_leaves (x->sub[1], depth + 1, nleaf, sumdepth);
460 #define SCALE(x) ((unsigned long) ((x) < 1024*10 \
461 ? (x) \
462 : ((x) < 1024*1024*10 \
463 ? (x) / 1024 \
464 : (x) / (1024*1024))))
465 #define LABEL(x) ((x) < 1024*10 ? ' ' : ((x) < 1024*1024*10 ? 'k' : 'M'))
467 /* Report on GC memory usage. */
468 void
469 ggc_print_statistics ()
471 struct ggc_statistics stats;
472 size_t nleaf = 0, sumdepth = 0;
474 /* Clear the statistics. */
475 memset (&stats, 0, sizeof (stats));
477 /* Make sure collection will really occur. */
478 G.allocated_last_gc = 0;
480 /* Collect and print the statistics common across collectors. */
481 ggc_print_common_statistics (stderr, &stats);
483 /* Report on tree balancing. */
484 tally_leaves (G.root, 0, &nleaf, &sumdepth);
486 fprintf (stderr, "\n\
487 Total internal data (bytes)\t%ld%c\n\
488 Number of leaves in tree\t%d\n\
489 Average leaf depth\t\t%.1f\n",
490 SCALE(G.objects * offsetof (struct ggc_mem, u)),
491 LABEL(G.objects * offsetof (struct ggc_mem, u)),
492 nleaf, (double)sumdepth / (double)nleaf);
494 /* Report overall memory usage. */
495 fprintf (stderr, "\n\
496 Total objects allocated\t\t%d\n\
497 Total memory in GC arena\t%ld%c\n",
498 G.objects,
499 SCALE(G.allocated), LABEL(G.allocated));