2015-08-04 Thomas Preud'homme <thomas.preudhomme@arm.com>
[official-gcc.git] / gcc / alloc-pool.h
blob03bde635bf53e1d24366ae7f3f1c2bffce0dc687
1 /* Functions to support a pool of allocatable objects
2 Copyright (C) 1997-2015 Free Software Foundation, Inc.
3 Contributed by Daniel Berlin <dan@cgsoftware.com>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
10 any later version.
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
20 #ifndef ALLOC_POOL_H
21 #define ALLOC_POOL_H
24 extern void dump_alloc_pool_statistics (void);
26 typedef unsigned long ALLOC_POOL_ID_TYPE;
28 /* Last used ID. */
29 extern ALLOC_POOL_ID_TYPE last_id;
31 /* Pool allocator memory usage. */
32 struct pool_usage: public mem_usage
34 /* Default contructor. */
35 pool_usage (): m_element_size (0), m_pool_name ("") {}
36 /* Constructor. */
37 pool_usage (size_t allocated, size_t times, size_t peak,
38 size_t instances, size_t element_size,
39 const char *pool_name)
40 : mem_usage (allocated, times, peak, instances),
41 m_element_size (element_size),
42 m_pool_name (pool_name) {}
44 /* Sum the usage with SECOND usage. */
45 pool_usage
46 operator+ (const pool_usage &second)
48 return pool_usage (m_allocated + second.m_allocated,
49 m_times + second.m_times,
50 m_peak + second.m_peak,
51 m_instances + second.m_instances,
52 m_element_size, m_pool_name);
55 /* Dump usage coupled to LOC location, where TOTAL is sum of all rows. */
56 inline void
57 dump (mem_location *loc, mem_usage &total) const
59 char *location_string = loc->to_string ();
61 fprintf (stderr, "%-32s%-48s %6li%10li:%5.1f%%%10li%10li:%5.1f%%%12li\n",
62 m_pool_name, location_string, (long)m_instances,
63 (long)m_allocated, get_percent (m_allocated, total.m_allocated),
64 (long)m_peak, (long)m_times,
65 get_percent (m_times, total.m_times),
66 (long)m_element_size);
68 free (location_string);
71 /* Dump header with NAME. */
72 static inline void
73 dump_header (const char *name)
75 fprintf (stderr, "%-32s%-48s %6s%11s%16s%17s%12s\n", "Pool name", name,
76 "Pools", "Leak", "Peak", "Times", "Elt size");
77 print_dash_line ();
80 /* Dump footer. */
81 inline void
82 dump_footer ()
84 print_dash_line ();
85 fprintf (stderr, "%s%82li%10li\n", "Total", (long)m_instances,
86 (long)m_allocated);
87 print_dash_line ();
90 /* Element size. */
91 size_t m_element_size;
92 /* Pool name. */
93 const char *m_pool_name;
96 extern mem_alloc_description<pool_usage> pool_allocator_usage;
98 /* Generic pool allocator. */
99 class pool_allocator
101 public:
102 /* Default constructor for pool allocator called NAME. Each block
103 has NUM elements. */
104 pool_allocator (const char *name, size_t num, size_t size CXX_MEM_STAT_INFO);
105 ~pool_allocator ();
106 void release ();
107 void release_if_empty ();
108 void *allocate () ATTRIBUTE_MALLOC;
109 void remove (void *object);
111 private:
112 struct allocation_pool_list
114 allocation_pool_list *next;
117 /* Initialize a pool allocator. */
118 void initialize ();
120 struct allocation_object
122 /* The ID of alloc pool which the object was allocated from. */
123 ALLOC_POOL_ID_TYPE id;
125 union
127 /* The data of the object. */
128 char data[1];
130 /* Because we want any type of data to be well aligned after the ID,
131 the following elements are here. They are never accessed so
132 the allocated object may be even smaller than this structure.
133 We do not care about alignment for floating-point types. */
134 char *align_p;
135 int64_t align_i;
136 } u;
138 static inline allocation_object*
139 get_instance (void *data_ptr)
141 return (allocation_object *)(((char *)(data_ptr))
142 - offsetof (allocation_object,
143 u.data));
146 static inline void*
147 get_data (void *instance_ptr)
149 return (void*)(((allocation_object *) instance_ptr)->u.data);
153 /* Align X to 8. */
154 size_t
155 align_eight (size_t x)
157 return (((x+7) >> 3) << 3);
160 const char *m_name;
161 ALLOC_POOL_ID_TYPE m_id;
162 size_t m_elts_per_block;
164 /* These are the elements that have been allocated at least once
165 and freed. */
166 allocation_pool_list *m_returned_free_list;
168 /* These are the elements that have not yet been allocated out of
169 the last block obtained from XNEWVEC. */
170 char* m_virgin_free_list;
172 /* The number of elements in the virgin_free_list that can be
173 allocated before needing another block. */
174 size_t m_virgin_elts_remaining;
175 /* The number of elements that are allocated. */
176 size_t m_elts_allocated;
177 /* The number of elements that are released. */
178 size_t m_elts_free;
179 /* The number of allocated blocks. */
180 size_t m_blocks_allocated;
181 /* List of blocks that are used to allocate new objects. */
182 allocation_pool_list *m_block_list;
183 /* The number of elements in a block. */
184 size_t m_block_size;
185 /* Size of a pool elements in bytes. */
186 size_t m_elt_size;
187 /* Size in bytes that should be allocated for each element. */
188 size_t m_size;
189 /* Flag if a pool allocator is initialized. */
190 bool m_initialized;
191 /* Memory allocation location. */
192 mem_location m_location;
195 inline
196 pool_allocator::pool_allocator (const char *name, size_t num,
197 size_t size MEM_STAT_DECL):
198 m_name (name), m_id (0), m_elts_per_block (num), m_returned_free_list (NULL),
199 m_virgin_free_list (NULL), m_virgin_elts_remaining (0), m_elts_allocated (0),
200 m_elts_free (0), m_blocks_allocated (0), m_block_list (NULL),
201 m_block_size (0), m_size (size), m_initialized (false),
202 m_location (ALLOC_POOL_ORIGIN, false PASS_MEM_STAT) {}
204 /* Initialize a pool allocator. */
206 inline void
207 pool_allocator::initialize ()
209 gcc_checking_assert (!m_initialized);
210 m_initialized = true;
212 size_t header_size;
213 size_t size = m_size;
215 gcc_checking_assert (m_name);
217 /* Make size large enough to store the list header. */
218 if (size < sizeof (allocation_pool_list*))
219 size = sizeof (allocation_pool_list*);
221 /* Now align the size to a multiple of 4. */
222 size = align_eight (size);
224 /* Add the aligned size of ID. */
225 size += offsetof (allocation_object, u.data);
227 /* Um, we can't really allocate 0 elements per block. */
228 gcc_checking_assert (m_elts_per_block);
230 m_elt_size = size;
232 if (GATHER_STATISTICS)
234 pool_usage *u = pool_allocator_usage.register_descriptor
235 (this, new mem_location (m_location));
237 u->m_element_size = m_elt_size;
238 u->m_pool_name = m_name;
241 /* List header size should be a multiple of 8. */
242 header_size = align_eight (sizeof (allocation_pool_list));
244 m_block_size = (size * m_elts_per_block) + header_size;
246 #ifdef ENABLE_CHECKING
247 /* Increase the last used ID and use it for this pool.
248 ID == 0 is used for free elements of pool so skip it. */
249 last_id++;
250 if (last_id == 0)
251 last_id++;
253 m_id = last_id;
254 #endif
257 /* Free all memory allocated for the given memory pool. */
258 inline void
259 pool_allocator::release ()
261 if (!m_initialized)
262 return;
264 allocation_pool_list *block, *next_block;
266 /* Free each block allocated to the pool. */
267 for (block = m_block_list; block != NULL; block = next_block)
269 next_block = block->next;
270 free (block);
273 if (GATHER_STATISTICS)
275 pool_allocator_usage.release_instance_overhead
276 (this, (m_elts_allocated - m_elts_free) * m_elt_size);
279 m_returned_free_list = NULL;
280 m_virgin_free_list = NULL;
281 m_virgin_elts_remaining = 0;
282 m_elts_allocated = 0;
283 m_elts_free = 0;
284 m_blocks_allocated = 0;
285 m_block_list = NULL;
288 void
289 inline pool_allocator::release_if_empty ()
291 if (m_elts_free == m_elts_allocated)
292 release ();
295 inline pool_allocator::~pool_allocator ()
297 release ();
300 /* Allocates one element from the pool specified. */
301 inline void*
302 pool_allocator::allocate ()
304 if (!m_initialized)
305 initialize ();
307 allocation_pool_list *header;
308 #ifdef ENABLE_VALGRIND_ANNOTATIONS
309 int size;
310 #endif
312 if (GATHER_STATISTICS)
314 pool_allocator_usage.register_instance_overhead (m_elt_size, this);
317 #ifdef ENABLE_VALGRIND_ANNOTATIONS
318 size = m_elt_size - offsetof (allocation_object, u.data);
319 #endif
321 /* If there are no more free elements, make some more!. */
322 if (!m_returned_free_list)
324 char *block;
325 if (!m_virgin_elts_remaining)
327 allocation_pool_list *block_header;
329 /* Make the block. */
330 block = XNEWVEC (char, m_block_size);
331 block_header = (allocation_pool_list*) block;
332 block += align_eight (sizeof (allocation_pool_list));
334 /* Throw it on the block list. */
335 block_header->next = m_block_list;
336 m_block_list = block_header;
338 /* Make the block available for allocation. */
339 m_virgin_free_list = block;
340 m_virgin_elts_remaining = m_elts_per_block;
342 /* Also update the number of elements we have free/allocated, and
343 increment the allocated block count. */
344 m_elts_allocated += m_elts_per_block;
345 m_elts_free += m_elts_per_block;
346 m_blocks_allocated += 1;
349 /* We now know that we can take the first elt off the virgin list and
350 put it on the returned list. */
351 block = m_virgin_free_list;
352 header = (allocation_pool_list*) allocation_object::get_data (block);
353 header->next = NULL;
354 #ifdef ENABLE_CHECKING
355 /* Mark the element to be free. */
356 ((allocation_object*) block)->id = 0;
357 #endif
358 VALGRIND_DISCARD (VALGRIND_MAKE_MEM_NOACCESS (header,size));
359 m_returned_free_list = header;
360 m_virgin_free_list += m_elt_size;
361 m_virgin_elts_remaining--;
365 /* Pull the first free element from the free list, and return it. */
366 header = m_returned_free_list;
367 VALGRIND_DISCARD (VALGRIND_MAKE_MEM_DEFINED (header, sizeof (*header)));
368 m_returned_free_list = header->next;
369 m_elts_free--;
371 #ifdef ENABLE_CHECKING
372 /* Set the ID for element. */
373 allocation_object::get_instance (header)->id = m_id;
374 #endif
375 VALGRIND_DISCARD (VALGRIND_MAKE_MEM_UNDEFINED (header, size));
377 return (void *)(header);
380 /* Puts PTR back on POOL's free list. */
381 inline void
382 pool_allocator::remove (void *object)
384 gcc_checking_assert (m_initialized);
386 allocation_pool_list *header;
387 int size ATTRIBUTE_UNUSED;
388 size = m_elt_size - offsetof (allocation_object, u.data);
390 #ifdef ENABLE_CHECKING
391 gcc_assert (object
392 /* Check if we free more than we allocated, which is Bad (TM). */
393 && m_elts_free < m_elts_allocated
394 /* Check whether the PTR was allocated from POOL. */
395 && m_id == allocation_object::get_instance (object)->id);
397 memset (object, 0xaf, size);
399 /* Mark the element to be free. */
400 allocation_object::get_instance (object)->id = 0;
401 #endif
403 header = (allocation_pool_list*) object;
404 header->next = m_returned_free_list;
405 m_returned_free_list = header;
406 VALGRIND_DISCARD (VALGRIND_MAKE_MEM_NOACCESS (object, size));
407 m_elts_free++;
409 if (GATHER_STATISTICS)
411 pool_allocator_usage.release_instance_overhead (this, m_elt_size);
415 /* Type based memory pool allocator. */
416 template <typename T>
417 class object_allocator
419 public:
420 /* Default constructor for pool allocator called NAME. Each block
421 has NUM elements. */
422 object_allocator (const char *name, size_t num CXX_MEM_STAT_INFO):
423 m_allocator (name, num, sizeof (T) PASS_MEM_STAT) {}
425 inline void
426 release ()
428 m_allocator.release ();
431 inline void release_if_empty ()
433 m_allocator.release_if_empty ();
436 inline T *
437 allocate () ATTRIBUTE_MALLOC
439 return ::new (m_allocator.allocate ()) T ();
442 inline void
443 remove (T *object)
445 /* Call destructor. */
446 object->~T ();
448 m_allocator.remove (object);
451 private:
452 pool_allocator m_allocator;
455 /* Store information about each particular alloc_pool. Note that this
456 will underestimate the amount the amount of storage used by a small amount:
457 1) The overhead in a pool is not accounted for.
458 2) The unallocated elements in a block are not accounted for. Note
459 that this can at worst case be one element smaller that the block
460 size for that pool. */
461 struct alloc_pool_descriptor
463 /* Number of pools allocated. */
464 unsigned long created;
465 /* Gross allocated storage. */
466 unsigned long allocated;
467 /* Amount of currently active storage. */
468 unsigned long current;
469 /* Peak amount of storage used. */
470 unsigned long peak;
471 /* Size of element in the pool. */
472 int elt_size;
475 /* Helper for classes that do not provide default ctor. */
477 template <typename T>
478 inline void *
479 operator new (size_t, object_allocator<T> &a)
481 return a.allocate ();
484 /* Hashtable mapping alloc_pool names to descriptors. */
485 extern hash_map<const char *, alloc_pool_descriptor> *alloc_pool_hash;
488 #endif