2 * Copyright © 2016 Keith Packard <keithp@keithp.com>
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 2 of the License, or
7 * (at your option) any later version.
9 * This program is distributed in the hope that it will be useful, but
10 * WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * General Public License for more details.
15 #define AO_LISP_CONST_BITS
20 #ifdef AO_LISP_MAKE_CONST
23 * When building the constant table, it is the
24 * pool for allocations.
28 uint8_t ao_lisp_const[AO_LISP_POOL_CONST] __attribute__((aligned(4)));
29 #define ao_lisp_pool ao_lisp_const
31 #define AO_LISP_POOL AO_LISP_POOL_CONST
35 uint8_t ao_lisp_pool[AO_LISP_POOL + AO_LISP_POOL_EXTRA] __attribute__((aligned(4)));
41 int dbg_mem = DBG_MEM_START;
44 struct ao_lisp_record {
45 struct ao_lisp_record *next;
46 const struct ao_lisp_type *type;
51 static struct ao_lisp_record *record_head, **record_tail;
54 ao_lisp_record_free(struct ao_lisp_record *record)
57 struct ao_lisp_record *next = record->next;
64 ao_lisp_record_reset(void)
66 ao_lisp_record_free(record_head);
68 record_tail = &record_head;
72 ao_lisp_record(const struct ao_lisp_type *type,
76 struct ao_lisp_record *r = malloc(sizeof (struct ao_lisp_record));
83 record_tail = &r->next;
86 static struct ao_lisp_record *
87 ao_lisp_record_save(void)
89 struct ao_lisp_record *r = record_head;
92 record_tail = &record_head;
97 ao_lisp_record_compare(char *where,
98 struct ao_lisp_record *a,
99 struct ao_lisp_record *b)
102 if (a->type != b->type || a->size != b->size) {
103 printf("%s record difers %d %s %d -> %d %s %d\n",
105 MDBG_OFFSET(a->addr),
108 MDBG_OFFSET(b->addr),
117 printf("%s record differs %d %s %d -> NULL\n",
119 MDBG_OFFSET(a->addr),
125 printf("%s record differs NULL -> %d %s %d\n",
127 MDBG_OFFSET(b->addr),
135 #define ao_lisp_record_reset()
138 uint8_t ao_lisp_exception;
140 struct ao_lisp_root {
141 const struct ao_lisp_type *type;
145 static struct ao_lisp_cons *save_cons[2];
146 static char *save_string[2];
147 static ao_poly save_poly[2];
149 static const struct ao_lisp_root ao_lisp_root[] = {
151 .type = &ao_lisp_cons_type,
152 .addr = (void **) &save_cons[0],
155 .type = &ao_lisp_cons_type,
156 .addr = (void **) &save_cons[1],
159 .type = &ao_lisp_string_type,
160 .addr = (void **) &save_string[0]
163 .type = &ao_lisp_string_type,
164 .addr = (void **) &save_string[1]
168 .addr = (void **) &save_poly[0]
172 .addr = (void **) &save_poly[1]
175 .type = &ao_lisp_atom_type,
176 .addr = (void **) &ao_lisp_atoms
179 .type = &ao_lisp_frame_type,
180 .addr = (void **) &ao_lisp_frame_global,
183 .type = &ao_lisp_frame_type,
184 .addr = (void **) &ao_lisp_frame_current,
187 .type = &ao_lisp_stack_type,
188 .addr = (void **) &ao_lisp_stack,
192 .addr = (void **) &ao_lisp_v,
195 .type = &ao_lisp_cons_type,
196 .addr = (void **) &ao_lisp_read_cons,
199 .type = &ao_lisp_cons_type,
200 .addr = (void **) &ao_lisp_read_cons_tail,
203 .type = &ao_lisp_cons_type,
204 .addr = (void **) &ao_lisp_read_stack,
208 #define AO_LISP_ROOT (sizeof (ao_lisp_root) / sizeof (ao_lisp_root[0]))
210 static const void ** const ao_lisp_cache[] = {
211 (const void **) &ao_lisp_cons_free_list,
212 (const void **) &ao_lisp_stack_free_list,
213 (const void **) &ao_lisp_frame_free_list[0],
214 (const void **) &ao_lisp_frame_free_list[1],
215 (const void **) &ao_lisp_frame_free_list[2],
216 (const void **) &ao_lisp_frame_free_list[3],
219 #if AO_LISP_FRAME_FREE != 4
220 #error Unexpected AO_LISP_FRAME_FREE value
223 #define AO_LISP_CACHE (sizeof (ao_lisp_cache) / sizeof (ao_lisp_cache[0]))
225 #define AO_LISP_BUSY_SIZE ((AO_LISP_POOL + 31) / 32)
227 static uint8_t ao_lisp_busy[AO_LISP_BUSY_SIZE];
228 static uint8_t ao_lisp_cons_note[AO_LISP_BUSY_SIZE];
229 static uint8_t ao_lisp_cons_last[AO_LISP_BUSY_SIZE];
230 static uint8_t ao_lisp_cons_noted;
232 uint16_t ao_lisp_top;
234 struct ao_lisp_chunk {
242 #define AO_LISP_NCHUNK 64
244 static struct ao_lisp_chunk ao_lisp_chunk[AO_LISP_NCHUNK];
246 /* Offset of an address within the pool. */
247 static inline uint16_t pool_offset(void *addr) {
249 if (!AO_LISP_IS_POOL(addr))
252 return ((uint8_t *) addr) - ao_lisp_pool;
256 * Convert back and forth between 'poly's used
257 * as short addresses in the pool and addresses.
258 * These are used in the chunk code.
260 static inline ao_poly pool_poly(void *addr) {
262 if (!AO_LISP_IS_POOL(addr))
265 return ((uint8_t *) addr) - AO_LISP_POOL_BASE;
268 static inline void *pool_ref(ao_poly p) {
269 return AO_LISP_POOL_BASE + p;
272 static inline void mark(uint8_t *tag, int offset) {
273 int byte = offset >> 5;
274 int bit = (offset >> 2) & 7;
275 tag[byte] |= (1 << bit);
278 static inline void clear(uint8_t *tag, int offset) {
279 int byte = offset >> 5;
280 int bit = (offset >> 2) & 7;
281 tag[byte] &= ~(1 << bit);
284 static inline int busy(uint8_t *tag, int offset) {
285 int byte = offset >> 5;
286 int bit = (offset >> 2) & 7;
287 return (tag[byte] >> bit) & 1;
290 static inline int min(int a, int b) { return a < b ? a : b; }
291 static inline int max(int a, int b) { return a > b ? a : b; }
293 static inline int limit(int offset) {
294 return min(AO_LISP_POOL, max(offset, 0));
297 static int total_marked;
300 note_cons(void *addr)
302 if (AO_LISP_IS_POOL(addr)) {
303 int offset = pool_offset(addr);
304 MDBG_MOVE("note cons %d\n", MDBG_OFFSET(addr));
305 ao_lisp_cons_noted = 1;
306 mark(ao_lisp_cons_note, offset);
310 static uint16_t chunk_low;
311 static uint16_t chunk_first, chunk_last;
314 note_chunk(uint16_t addr, uint16_t size)
318 if (addr < chunk_low)
321 for (i = 0; i < AO_LISP_NCHUNK; i++) {
322 if (ao_lisp_chunk[i].size && ao_lisp_chunk[i].old_addr == addr) {
324 if (ao_lisp_chunk[i].size != size)
329 if (ao_lisp_chunk[i].old_addr > addr) {
330 memmove(&ao_lisp_chunk[i+1],
332 (AO_LISP_NCHUNK - (i+1)) * sizeof (struct ao_lisp_chunk));
333 ao_lisp_chunk[i].size = 0;
335 if (ao_lisp_chunk[i].size == 0) {
336 ao_lisp_chunk[i].old_addr = addr;
337 ao_lisp_chunk[i].size = size;
344 * Walk all referenced objects calling functions on each one
348 walk(int (*visit_addr)(const struct ao_lisp_type *type, void **addr),
349 int (*visit_poly)(ao_poly *p, uint8_t do_note_cons))
354 ao_lisp_record_reset();
355 memset(ao_lisp_busy, '\0', sizeof (ao_lisp_busy));
356 memset(ao_lisp_cons_note, '\0', sizeof (ao_lisp_cons_note));
357 ao_lisp_cons_noted = 0;
358 for (i = 0; i < (int) AO_LISP_ROOT; i++) {
359 if (ao_lisp_root[i].type) {
360 void **a = ao_lisp_root[i].addr, *v;
362 MDBG_MOVE("root ptr %d\n", MDBG_OFFSET(v));
363 visit_addr(ao_lisp_root[i].type, a);
366 ao_poly *a = (ao_poly *) ao_lisp_root[i].addr, p;
368 MDBG_MOVE("root poly %d\n", MDBG_OFFSET(ao_lisp_ref(p)));
373 while (ao_lisp_cons_noted) {
374 memcpy(ao_lisp_cons_last, ao_lisp_cons_note, sizeof (ao_lisp_cons_note));
375 memset(ao_lisp_cons_note, '\0', sizeof (ao_lisp_cons_note));
376 ao_lisp_cons_noted = 0;
377 for (i = 0; i < AO_LISP_POOL; i += 4) {
378 if (busy(ao_lisp_cons_last, i)) {
379 void *v = ao_lisp_pool + i;
380 MDBG_MOVE("root cons %d\n", MDBG_OFFSET(v));
381 visit_addr(&ao_lisp_cons_type, &v);
393 for (i = 0; i < ao_lisp_top; i += 4) {
394 if ((i & 0xff) == 0) {
398 else if ((i & 0x1f) == 0)
400 if (busy(ao_lisp_busy, i))
407 #define DUMP_BUSY() dump_busy()
412 static const struct ao_lisp_type const *ao_lisp_types[AO_LISP_NUM_TYPE] = {
413 [AO_LISP_CONS] = &ao_lisp_cons_type,
414 [AO_LISP_INT] = NULL,
415 [AO_LISP_STRING] = &ao_lisp_string_type,
416 [AO_LISP_OTHER] = (void *) 0x1,
417 [AO_LISP_ATOM] = &ao_lisp_atom_type,
418 [AO_LISP_BUILTIN] = &ao_lisp_builtin_type,
419 [AO_LISP_FRAME] = &ao_lisp_frame_type,
420 [AO_LISP_LAMBDA] = &ao_lisp_lambda_type,
424 ao_lisp_mark_ref(const struct ao_lisp_type *type, void **ref)
426 return ao_lisp_mark(type, *ref);
430 ao_lisp_poly_mark_ref(ao_poly *p, uint8_t do_note_cons)
432 return ao_lisp_poly_mark(*p, do_note_cons);
435 int ao_lisp_collects[2];
436 int ao_lisp_freed[2];
438 int ao_lisp_last_top;
441 ao_lisp_collect(uint8_t style)
450 struct ao_lisp_record *mark_record = NULL, *move_record = NULL;
452 MDBG_MOVE("collect %d\n", ao_lisp_collects);
456 ++ao_lisp_collects[style];
458 /* Clear references to all caches */
459 for (i = 0; i < (int) AO_LISP_CACHE; i++)
460 *ao_lisp_cache[i] = NULL;
461 if (style == AO_LISP_COLLECT_FULL) {
464 chunk_low = top = ao_lisp_last_top;
468 MDBG_MOVE("move chunks from %d to %d\n", chunk_low, top);
469 /* Find the sizes of the first chunk of objects to move */
470 memset(ao_lisp_chunk, '\0', sizeof (ao_lisp_chunk));
471 walk(ao_lisp_mark_ref, ao_lisp_poly_mark_ref);
473 marked = total_marked;
475 ao_lisp_record_free(mark_record);
476 mark_record = ao_lisp_record_save();
477 if (mark_record && move_record)
478 ao_lisp_record_compare("mark", move_record, mark_record);
480 if (moved && moved != marked)
486 /* Find the first moving object */
487 for (i = 0; i < AO_LISP_NCHUNK; i++) {
488 uint16_t size = ao_lisp_chunk[i].size;
493 if (ao_lisp_chunk[i].old_addr > top)
496 if (ao_lisp_chunk[i].old_addr != top)
501 MDBG_MOVE("chunk %d %d not moving\n",
502 ao_lisp_chunk[i].old_addr,
503 ao_lisp_chunk[i].size);
504 chunk_low = ao_lisp_chunk[i].old_addr + size;
508 /* Copy all of the objects */
509 for (; i < AO_LISP_NCHUNK; i++) {
510 uint16_t size = ao_lisp_chunk[i].size;
515 MDBG_MOVE("chunk %d %d -> %d\n",
516 ao_lisp_chunk[i].old_addr,
519 ao_lisp_chunk[i].new_addr = top;
520 memmove(&ao_lisp_pool[top],
521 &ao_lisp_pool[ao_lisp_chunk[i].old_addr],
524 chunk_low = ao_lisp_chunk[i].old_addr + size;
529 if (chunk_first < chunk_last) {
530 /* Relocate all references to the objects */
531 walk(ao_lisp_move, ao_lisp_poly_move);
534 ao_lisp_record_free(move_record);
535 move_record = ao_lisp_record_save();
536 if (mark_record && move_record)
537 ao_lisp_record_compare("move", mark_record, move_record);
539 moved = total_marked;
545 if (chunk_last != AO_LISP_NCHUNK)
548 ret = ao_lisp_top - top;
549 ao_lisp_freed[style] += ret;
552 if (style == AO_LISP_COLLECT_FULL || ao_lisp_last_top == 0)
553 ao_lisp_last_top = top;
555 MDBG_DO(memset(ao_lisp_chunk, '\0', sizeof (ao_lisp_chunk));
556 walk(ao_lisp_mark_ref, ao_lisp_poly_mark_ref));
558 // printf ("collect. style %d loops %d freed %d\n", style, loops, ret);
563 * Mark interfaces for objects
565 * Note a reference to memory and
566 * collect information about a few object sizes
571 ao_lisp_mark_memory(const struct ao_lisp_type *type, void *addr)
574 if (!AO_LISP_IS_POOL(addr))
577 offset = pool_offset(addr);
578 MDBG_MOVE("mark memory %d\n", MDBG_OFFSET(addr));
579 if (busy(ao_lisp_busy, offset)) {
580 MDBG_MOVE("already marked\n");
583 mark(ao_lisp_busy, offset);
584 note_chunk(offset, ao_lisp_size(type, addr));
589 ao_lisp_mark(const struct ao_lisp_type *type, void *addr)
592 MDBG_MOVE("mark %d\n", MDBG_OFFSET(addr));
594 ret = ao_lisp_mark_memory(type, addr);
596 MDBG_MOVE("mark recurse\n");
604 ao_lisp_poly_mark(ao_poly p, uint8_t do_note_cons)
612 type = ao_lisp_poly_base_type(p);
613 addr = ao_lisp_ref(p);
615 if (!AO_LISP_IS_POOL(addr))
618 if (type == AO_LISP_CONS && do_note_cons) {
619 note_cons(ao_lisp_ref(p));
622 const struct ao_lisp_type *lisp_type;
624 if (type == AO_LISP_OTHER) {
625 type = ao_lisp_other_type(ao_lisp_poly_other(p));
627 if (type <= AO_LISP_OTHER || AO_LISP_NUM_TYPE <= type)
632 lisp_type = ao_lisp_types[ao_lisp_poly_type(p)];
635 return ao_lisp_mark(lisp_type, ao_lisp_ref(p));
642 uint16_t offset = pool_offset(addr);
645 for (i = chunk_first; i < chunk_last; i++) {
646 if (ao_lisp_chunk[i].old_addr == offset) {
647 MDBG_MOVE("move %d -> %d\n",
648 ao_lisp_chunk[i].old_addr,
649 ao_lisp_chunk[i].new_addr);
650 return ao_lisp_pool + ao_lisp_chunk[i].new_addr;
657 ao_lisp_move_memory(const struct ao_lisp_type *type, void **ref)
662 if (!AO_LISP_IS_POOL(addr))
667 MDBG_MOVE("move memory %d\n", MDBG_OFFSET(addr));
668 addr = move_map(addr);
670 MDBG_MOVE("update ref %d %d -> %d\n",
671 AO_LISP_IS_POOL(ref) ? MDBG_OFFSET(ref) : -1,
672 MDBG_OFFSET(*ref), MDBG_OFFSET(addr));
675 offset = pool_offset(addr);
676 if (busy(ao_lisp_busy, offset)) {
677 MDBG_MOVE("already moved\n");
680 mark(ao_lisp_busy, offset);
681 MDBG_DO(ao_lisp_record(type, addr, ao_lisp_size(type, addr)));
686 ao_lisp_move(const struct ao_lisp_type *type, void **ref)
689 MDBG_MOVE("move object %d\n", MDBG_OFFSET(*ref));
691 ret = ao_lisp_move_memory(type, ref);
693 MDBG_MOVE("move recurse\n");
701 ao_lisp_poly_move(ao_poly *ref, uint8_t do_note_cons)
711 addr = ao_lisp_ref(p);
713 if (!AO_LISP_IS_POOL(addr))
716 type = ao_lisp_poly_base_type(p);
718 if (type == AO_LISP_CONS && do_note_cons) {
720 addr = move_map(addr);
723 const struct ao_lisp_type *lisp_type;
725 if (type == AO_LISP_OTHER) {
726 type = ao_lisp_other_type(move_map(ao_lisp_poly_other(p)));
728 if (type <= AO_LISP_OTHER || AO_LISP_NUM_TYPE <= type)
733 lisp_type = ao_lisp_types[type];
736 ret = ao_lisp_move(lisp_type, &addr);
739 /* Re-write the poly value */
740 if (addr != ao_lisp_ref(p)) {
741 ao_poly np = ao_lisp_poly(addr, p & AO_LISP_TYPE_MASK);
742 MDBG_MOVE("poly %d moved %d -> %d\n",
743 type, MDBG_OFFSET(ao_lisp_ref(p)), MDBG_OFFSET(ao_lisp_ref(np)));
751 ao_lisp_validate(void)
754 memset(ao_lisp_chunk, '\0', sizeof (ao_lisp_chunk));
755 walk(ao_lisp_mark_ref, ao_lisp_poly_mark_ref);
763 ao_lisp_alloc(int size)
767 MDBG_DO(++dbg_allocs);
768 MDBG_DO(if (dbg_validate) ao_lisp_validate());
769 size = ao_lisp_size_round(size);
770 if (ao_lisp_top + size > AO_LISP_POOL) {
771 if (!ao_lisp_collect(AO_LISP_COLLECT_INCREMENTAL) &&
772 !ao_lisp_collect(AO_LISP_COLLECT_FULL))
774 ao_lisp_error(AO_LISP_OOM, "out of memory");
778 addr = ao_lisp_pool + ao_lisp_top;
784 ao_lisp_cons_stash(int id, struct ao_lisp_cons *cons)
786 save_cons[id] = cons;
789 struct ao_lisp_cons *
790 ao_lisp_cons_fetch(int id)
792 struct ao_lisp_cons *cons = save_cons[id];
793 save_cons[id] = NULL;
798 ao_lisp_string_stash(int id, char *string)
800 save_string[id] = string;
804 ao_lisp_string_fetch(int id)
806 char *string = save_string[id];
807 save_string[id] = NULL;
811 ao_lisp_poly_stash(int id, ao_poly poly)
813 save_poly[id] = poly;
817 ao_lisp_poly_fetch(int id)
819 ao_poly poly = save_poly[id];
820 save_poly[id] = AO_LISP_NIL;