/* * Copyright © 2016 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #define AO_SCHEME_CONST_BITS #include "ao_scheme.h" #include #include #ifdef AO_SCHEME_MAKE_CONST /* * When building the constant table, it is the * pool for allocations. */ #include uint8_t ao_scheme_const[AO_SCHEME_POOL_CONST] __attribute__((aligned(4))); #define ao_scheme_pool ao_scheme_const #undef AO_SCHEME_POOL #define AO_SCHEME_POOL AO_SCHEME_POOL_CONST #else uint8_t ao_scheme_pool[AO_SCHEME_POOL + AO_SCHEME_POOL_EXTRA] __attribute__((aligned(4))); #endif #ifndef DBG_MEM_STATS #define DBG_MEM_STATS DBG_MEM #endif #define DBG_MEM_STACK 0 #if DBG_MEM_STACK char *mem_collect_stack; int64_t mem_collect_max_depth; static void ao_scheme_check_stack(void) { char x; int64_t depth; depth = mem_collect_stack - &x; if (depth > mem_collect_max_depth) mem_collect_max_depth = depth; } static void _ao_scheme_reset_stack(char *x) { mem_collect_stack = x; // mem_collect_max_depth = 0; } #define ao_scheme_declare_stack char x; #define ao_scheme_reset_stack() _ao_scheme_reset_stack(&x) #else #define ao_scheme_check_stack() #define ao_scheme_declare_stack #define ao_scheme_reset_stack() #endif #if DBG_MEM #define DBG_MEM_RECORD 1 #endif #if DBG_MEM int dbg_move_depth; int dbg_mem = DBG_MEM_START; int dbg_validate = 0; #endif #if DBG_MEM_RECORD struct ao_scheme_record { struct ao_scheme_record *next; const struct ao_scheme_type *type; void *addr; int size; }; static struct ao_scheme_record *record_head, **record_tail; static void ao_scheme_record_free(struct ao_scheme_record *record) { while (record) { struct ao_scheme_record *next = record->next; free(record); record = next; } } static void ao_scheme_record_reset(void) { ao_scheme_record_free(record_head); record_head = NULL; record_tail = &record_head; } static void ao_scheme_record(const struct ao_scheme_type *type, void *addr, int size) { struct ao_scheme_record *r = malloc(sizeof (struct ao_scheme_record)); r->next = NULL; r->type = type; r->addr = addr; r->size = size; *record_tail = r; record_tail = &r->next; } static struct ao_scheme_record * ao_scheme_record_save(void) { struct ao_scheme_record *r = record_head; record_head = NULL; record_tail = &record_head; return r; } static void ao_scheme_record_compare(const char *where, struct ao_scheme_record *a, struct ao_scheme_record *b) { while (a && b) { if (a->type != b->type || a->size != b->size) { printf("%s record difers %d %s %d -> %d %s %d\n", where, MDBG_OFFSET(a->addr), a->type->name, a->size, MDBG_OFFSET(b->addr), b->type->name, b->size); ao_scheme_abort(); } a = a->next; b = b->next; } if (a) { printf("%s record differs %d %s %d -> NULL\n", where, MDBG_OFFSET(a->addr), a->type->name, a->size); ao_scheme_abort(); } if (b) { printf("%s record differs NULL -> %d %s %d\n", where, MDBG_OFFSET(b->addr), b->type->name, b->size); ao_scheme_abort(); } } #else #define ao_scheme_record_reset() #define ao_scheme_record(t,a,s) #endif uint8_t ao_scheme_exception; struct ao_scheme_root { const struct ao_scheme_type *type; void **addr; }; #define AO_SCHEME_NUM_STASH 6 static ao_poly stash_poly[AO_SCHEME_NUM_STASH]; static int stash_poly_ptr; static const struct ao_scheme_root ao_scheme_root[] = { { .type = NULL, .addr = (void **) (void *) &stash_poly[0] }, { .type = NULL, .addr = (void **) (void *) &stash_poly[1] }, { .type = NULL, .addr = (void **) (void *) &stash_poly[2] }, { .type = NULL, .addr = (void **) (void *) &stash_poly[3] }, { .type = NULL, .addr = (void **) (void *) &stash_poly[4] }, { .type = NULL, .addr = (void **) (void *) &stash_poly[5] }, { .type = &ao_scheme_atom_type, .addr = (void **) &ao_scheme_atoms }, { .type = &ao_scheme_frame_type, .addr = (void **) &ao_scheme_frame_global, }, { .type = &ao_scheme_frame_type, .addr = (void **) &ao_scheme_frame_current, }, { .type = &ao_scheme_stack_type, .addr = (void **) &ao_scheme_stack, }, { .type = NULL, .addr = (void **) (void *) &ao_scheme_v, }, { .type = &ao_scheme_cons_type, .addr = (void **) &ao_scheme_read_cons, }, { .type = &ao_scheme_cons_type, .addr = (void **) &ao_scheme_read_cons_tail, }, { .type = &ao_scheme_cons_type, .addr = (void **) &ao_scheme_read_stack, }, #ifdef AO_SCHEME_MAKE_CONST { .type = &ao_scheme_bool_type, .addr = (void **) &ao_scheme_false, }, { .type = &ao_scheme_bool_type, .addr = (void **) &ao_scheme_true, }, #endif }; #define AO_SCHEME_ROOT (sizeof (ao_scheme_root) / sizeof (ao_scheme_root[0])) static const void ** const ao_scheme_cache[] = { (const void **) &ao_scheme_cons_free_list, (const void **) &ao_scheme_stack_free_list, (const void **) &ao_scheme_frame_free_list[0], (const void **) &ao_scheme_frame_free_list[1], (const void **) &ao_scheme_frame_free_list[2], (const void **) &ao_scheme_frame_free_list[3], (const void **) &ao_scheme_frame_free_list[4], (const void **) &ao_scheme_frame_free_list[5], }; #if AO_SCHEME_FRAME_FREE != 6 #error Unexpected AO_SCHEME_FRAME_FREE value #endif #define AO_SCHEME_CACHE (sizeof (ao_scheme_cache) / sizeof (ao_scheme_cache[0])) #define AO_SCHEME_BUSY_SIZE ((AO_SCHEME_POOL + 31) / 32) static int ao_scheme_printing, ao_scheme_print_cleared; #if DBG_MEM static int ao_scheme_collecting; #endif static uint8_t ao_scheme_busy[AO_SCHEME_BUSY_SIZE]; static uint8_t ao_scheme_cons_note[AO_SCHEME_BUSY_SIZE]; static uint8_t ao_scheme_cons_last[AO_SCHEME_BUSY_SIZE]; static uint8_t ao_scheme_cons_noted; uint16_t ao_scheme_top; struct ao_scheme_chunk { uint16_t old_offset; union { uint16_t size; uint16_t new_offset; }; }; #define AO_SCHEME_NCHUNK 64 static struct ao_scheme_chunk ao_scheme_chunk[AO_SCHEME_NCHUNK]; /* Offset of an address within the pool. */ static inline uint16_t pool_offset(void *addr) { #if DBG_MEM if (!ao_scheme_is_pool_addr(addr)) ao_scheme_abort(); #endif return ((uint8_t *) addr) - ao_scheme_pool; } static inline void mark(uint8_t *tag, int offset) { int byte = offset >> 5; int bit = (offset >> 2) & 7; ao_scheme_check_stack(); tag[byte] |= (1 << bit); } static inline void clear(uint8_t *tag, int offset) { int byte = offset >> 5; int bit = (offset >> 2) & 7; tag[byte] &= ~(1 << bit); } static inline int busy(uint8_t *tag, int offset) { int byte = offset >> 5; int bit = (offset >> 2) & 7; return (tag[byte] >> bit) & 1; } static inline int min(int a, int b) { return a < b ? a : b; } static inline int max(int a, int b) { return a > b ? a : b; } static inline int limit(int offset) { return min(AO_SCHEME_POOL, max(offset, 0)); } static inline void note_cons(uint16_t offset) { MDBG_MOVE("note cons %d\n", offset); ao_scheme_cons_noted = 1; mark(ao_scheme_cons_note, offset); } static uint16_t chunk_low, chunk_high; static uint16_t chunk_first, chunk_last; static int find_chunk(uint16_t offset) { int l, r; /* Binary search for the location */ l = chunk_first; r = chunk_last - 1; while (l <= r) { int m = (l + r) >> 1; if (ao_scheme_chunk[m].old_offset < offset) l = m + 1; else r = m - 1; } return l; } static void note_chunk(uint16_t offset, uint16_t size) { int l; int end; if (offset < chunk_low || chunk_high <= offset) return; l = find_chunk(offset); /* * The correct location is always in 'l', with r = l-1 being * the entry before the right one */ #if DBG_MEM /* Off the right side */ if (l >= AO_SCHEME_NCHUNK) ao_scheme_abort(); /* Off the left side */ if (l == 0 && chunk_last && offset > ao_scheme_chunk[0].old_offset) ao_scheme_abort(); if (l < chunk_last && ao_scheme_chunk[l].old_offset == offset) ao_scheme_abort(); #endif /* Shuffle existing entries right */ end = min(AO_SCHEME_NCHUNK, chunk_last + 1); memmove(&ao_scheme_chunk[l+1], &ao_scheme_chunk[l], (end - (l+1)) * sizeof (struct ao_scheme_chunk)); /* Add new entry */ ao_scheme_chunk[l].old_offset = offset; ao_scheme_chunk[l].size = size; /* Increment the number of elements up to the size of the array */ if (chunk_last < AO_SCHEME_NCHUNK) chunk_last++; /* Set the top address if the array is full */ if (chunk_last == AO_SCHEME_NCHUNK) chunk_high = ao_scheme_chunk[AO_SCHEME_NCHUNK-1].old_offset + ao_scheme_chunk[AO_SCHEME_NCHUNK-1].size; } static void reset_chunks(void) { chunk_high = ao_scheme_top; chunk_last = 0; chunk_first = 0; } /* * Walk all referenced objects calling functions on each one */ static void walk(int (*visit_addr)(const struct ao_scheme_type *type, void **addr), int (*visit_poly)(ao_poly *p, uint8_t do_note_cons)) { int i; ao_scheme_record_reset(); memset(ao_scheme_busy, '\0', sizeof (ao_scheme_busy)); memset(ao_scheme_cons_note, '\0', sizeof (ao_scheme_cons_note)); ao_scheme_cons_noted = 0; for (i = 0; i < (int) AO_SCHEME_ROOT; i++) { if (ao_scheme_root[i].type) { void **a = ao_scheme_root[i].addr, *v; if (a && (v = *a)) { MDBG_MOVE("root ptr %d\n", MDBG_OFFSET(v)); visit_addr(ao_scheme_root[i].type, a); } } else { ao_poly *a = (ao_poly *) ao_scheme_root[i].addr, p; if (a && (p = *a)) { MDBG_MOVE("root poly %d\n", MDBG_OFFSET(ao_scheme_ref(p))); visit_poly(a, 0); } } } while (ao_scheme_cons_noted) { memcpy(ao_scheme_cons_last, ao_scheme_cons_note, sizeof (ao_scheme_cons_note)); memset(ao_scheme_cons_note, '\0', sizeof (ao_scheme_cons_note)); ao_scheme_cons_noted = 0; for (i = 0; i < AO_SCHEME_POOL; i += 4) { if (busy(ao_scheme_cons_last, i)) { void *v = ao_scheme_pool + i; MDBG_MOVE("root cons %d\n", MDBG_OFFSET(v)); visit_addr(&ao_scheme_cons_type, &v); } } } } #if MDBG_DUMP static void dump_busy(void) { int i; printf("busy:"); for (i = 0; i < ao_scheme_top; i += 4) { if ((i & 0xff) == 0) { printf("\n\t"); } else if ((i & 0x1f) == 0) printf(" "); if (busy(ao_scheme_busy, i)) printf("*"); else printf("-"); } printf ("\n"); } #define DUMP_BUSY() dump_busy() #else #define DUMP_BUSY() #endif static const struct ao_scheme_type * const ao_scheme_types[AO_SCHEME_NUM_TYPE] = { [AO_SCHEME_CONS] = &ao_scheme_cons_type, [AO_SCHEME_INT] = NULL, #ifdef AO_SCHEME_FEATURE_BIGINT [AO_SCHEME_BIGINT] = &ao_scheme_bigint_type, #endif [AO_SCHEME_OTHER] = (void *) 0x1, [AO_SCHEME_ATOM] = &ao_scheme_atom_type, [AO_SCHEME_BUILTIN] = &ao_scheme_builtin_type, [AO_SCHEME_FRAME] = &ao_scheme_frame_type, [AO_SCHEME_FRAME_VALS] = &ao_scheme_frame_vals_type, [AO_SCHEME_LAMBDA] = &ao_scheme_lambda_type, [AO_SCHEME_STACK] = &ao_scheme_stack_type, [AO_SCHEME_BOOL] = &ao_scheme_bool_type, [AO_SCHEME_STRING] = &ao_scheme_string_type, #ifdef AO_SCHEME_FEATURE_FLOAT [AO_SCHEME_FLOAT] = &ao_scheme_float_type, #endif #ifdef AO_SCHEME_FEATURE_VECTOR [AO_SCHEME_VECTOR] = &ao_scheme_vector_type, #endif }; static int ao_scheme_mark(const struct ao_scheme_type *type, void *addr); static int ao_scheme_move(const struct ao_scheme_type *type, void **ref); static int ao_scheme_mark_ref(const struct ao_scheme_type *type, void **ref) { return ao_scheme_mark(type, *ref); } static int ao_scheme_poly_mark_ref(ao_poly *p, uint8_t do_note_cons) { return ao_scheme_poly_mark(*p, do_note_cons); } #if DBG_MEM_STATS uint64_t ao_scheme_collects[2]; uint64_t ao_scheme_freed[2]; uint64_t ao_scheme_loops[2]; #endif int ao_scheme_last_top; int ao_scheme_collect_counts; int ao_scheme_collect(uint8_t style) { ao_scheme_declare_stack int i; int top; #if DBG_MEM_STATS int loops = 0; #endif #if DBG_MEM_RECORD struct ao_scheme_record *mark_record = NULL, *move_record = NULL; #endif MDBG_MOVE("collect %lu\n", ao_scheme_collects[style]); MDBG_DO(ao_scheme_frame_write(ao_scheme_frame_poly(ao_scheme_frame_global))); MDBG_DO(++ao_scheme_collecting); ao_scheme_reset_stack(); /* The first time through, we're doing a full collect */ if (ao_scheme_last_top == 0) style = AO_SCHEME_COLLECT_FULL; /* One in a while, just do a full collect */ if (ao_scheme_collect_counts >= 128) style = AO_SCHEME_COLLECT_FULL; if (style == AO_SCHEME_COLLECT_FULL) ao_scheme_collect_counts = 0; /* Clear references to all caches */ for (i = 0; i < (int) AO_SCHEME_CACHE; i++) *ao_scheme_cache[i] = NULL; if (style == AO_SCHEME_COLLECT_FULL) { chunk_low = top = 0; } else { chunk_low = top = ao_scheme_last_top; } for (;;) { MDBG_MOVE("move chunks from %d to %d\n", chunk_low, top); /* Find the sizes of the first chunk of objects to move */ reset_chunks(); walk(ao_scheme_mark_ref, ao_scheme_poly_mark_ref); #if DBG_MEM_RECORD ao_scheme_record_free(mark_record); mark_record = ao_scheme_record_save(); if (mark_record && move_record) ao_scheme_record_compare("mark", move_record, mark_record); #endif DUMP_BUSY(); /* Find the first moving object */ for (i = 0; i < chunk_last; i++) { uint16_t size = ao_scheme_chunk[i].size; #if DBG_MEM if (!size) ao_scheme_abort(); #endif if (ao_scheme_chunk[i].old_offset > top) break; MDBG_MOVE("chunk %d %d not moving\n", ao_scheme_chunk[i].old_offset, ao_scheme_chunk[i].size); #if DBG_MEM if (ao_scheme_chunk[i].old_offset != top) ao_scheme_abort(); #endif top += size; } /* Short-circuit the rest of the loop when all of the * found objects aren't moving. This isn't strictly * necessary as the rest of the loop is structured to * work in this case, but GCC 7.2.0 with optimization * greater than 2 generates incorrect code for this... */ if (i == AO_SCHEME_NCHUNK) { chunk_low = chunk_high; #if DBG_MEM_STATS loops++; #endif continue; } /* * Limit amount of chunk array used in mapping moves * to the active region */ chunk_first = i; chunk_low = ao_scheme_chunk[i].old_offset; /* Copy all of the objects */ for (; i < chunk_last; i++) { uint16_t size = ao_scheme_chunk[i].size; #if DBG_MEM if (!size) ao_scheme_abort(); #endif MDBG_MOVE("chunk %d %d -> %d\n", ao_scheme_chunk[i].old_offset, size, top); ao_scheme_chunk[i].new_offset = top; memmove(&ao_scheme_pool[top], &ao_scheme_pool[ao_scheme_chunk[i].old_offset], size); top += size; } if (chunk_first < chunk_last) { /* Relocate all references to the objects */ walk(ao_scheme_move, ao_scheme_poly_move); #if DBG_MEM_RECORD ao_scheme_record_free(move_record); move_record = ao_scheme_record_save(); if (mark_record && move_record) ao_scheme_record_compare("move", mark_record, move_record); #endif } #if DBG_MEM_STATS loops++; #endif /* If we ran into the end of the heap, then * there's no need to keep walking */ if (chunk_last != AO_SCHEME_NCHUNK) break; /* Next loop starts right above this loop */ chunk_low = chunk_high; } #if DBG_MEM_STATS /* Collect stats */ ++ao_scheme_collects[style]; ao_scheme_freed[style] += ao_scheme_top - top; ao_scheme_loops[style] += loops; #endif ao_scheme_top = top; if (style == AO_SCHEME_COLLECT_FULL) ao_scheme_last_top = top; MDBG_DO(memset(ao_scheme_chunk, '\0', sizeof (ao_scheme_chunk)); walk(ao_scheme_mark_ref, ao_scheme_poly_mark_ref)); #if DBG_MEM_STACK fprintf(stderr, "max collect stack depth %lu\n", mem_collect_max_depth); #endif MDBG_DO(--ao_scheme_collecting); return AO_SCHEME_POOL - ao_scheme_top; } #if DBG_FREE_CONS void ao_scheme_cons_check(struct ao_scheme_cons *cons) { ao_poly cdr; int offset; chunk_low = 0; reset_chunks(); walk(ao_scheme_mark_ref, ao_scheme_poly_mark_ref); while (cons) { if (!ao_scheme_is_pool_addr(cons)) break; offset = pool_offset(cons); if (busy(ao_scheme_busy, offset)) { ao_scheme_printf("cons at %p offset %d poly %d is busy\n\t%v\n", cons, offset, ao_scheme_cons_poly(cons), ao_scheme_cons_poly(cons)); abort(); } cdr = cons->cdr; if (!ao_scheme_is_pair(cdr)) break; cons = ao_scheme_poly_cons(cdr); } } #endif /* * Mark interfaces for objects */ /* * Note a reference to memory and collect information about a few * object sizes at a time */ int ao_scheme_mark_memory(const struct ao_scheme_type *type, void *addr) { int offset; if (!ao_scheme_is_pool_addr(addr)) return 1; offset = pool_offset(addr); MDBG_MOVE("mark memory %d\n", MDBG_OFFSET(addr)); if (busy(ao_scheme_busy, offset)) { MDBG_MOVE("already marked\n"); return 1; } mark(ao_scheme_busy, offset); note_chunk(offset, ao_scheme_size(type, addr)); return 0; } /* * Mark an object and all that it refereces */ static int ao_scheme_mark(const struct ao_scheme_type *type, void *addr) { int ret; MDBG_MOVE("mark %d\n", MDBG_OFFSET(addr)); MDBG_MOVE_IN(); ret = ao_scheme_mark_memory(type, addr); if (!ret) { MDBG_MOVE("mark recurse\n"); type->mark(addr); } MDBG_MOVE_OUT(); return ret; } /* * Mark an object, unless it is a cons cell and * do_note_cons is set. In that case, just * set a bit in the cons note array; those * will be marked in a separate pass to avoid * deep recursion in the collector */ int ao_scheme_poly_mark(ao_poly p, uint8_t do_note_cons) { uint8_t type; void *addr; int ret; type = ao_scheme_poly_base_type(p); if (type == AO_SCHEME_INT) return 1; addr = ao_scheme_ref(p); if (!ao_scheme_is_pool_addr(addr)) return 1; if (type == AO_SCHEME_CONS && do_note_cons) { note_cons(pool_offset(addr)); return 1; } else { const struct ao_scheme_type *lisp_type; if (type == AO_SCHEME_OTHER) type = ao_scheme_other_type(addr); lisp_type = ao_scheme_types[type]; #if DBG_MEM if (!lisp_type) ao_scheme_abort(); #endif MDBG_MOVE("mark %d\n", MDBG_OFFSET(addr)); MDBG_MOVE_IN(); ret = ao_scheme_mark_memory(lisp_type, addr); if (!ret) { MDBG_MOVE("mark recurse\n"); lisp_type->mark(addr); } MDBG_MOVE_OUT(); return ret; } } /* * Find the current location of an object * based on the original location. For unmoved * objects, this is simple. For moved objects, * go search for it */ static uint16_t move_map(uint16_t offset) { int l; if (offset < chunk_low || chunk_high <= offset) return offset; l = find_chunk(offset); #if DBG_MEM if (ao_scheme_chunk[l].old_offset != offset) ao_scheme_abort(); #endif return ao_scheme_chunk[l].new_offset; } int ao_scheme_move_memory(const struct ao_scheme_type *type, void **ref) { void *addr = *ref; uint16_t offset, orig_offset; if (!ao_scheme_is_pool_addr(addr)) return 1; (void) type; MDBG_MOVE("move memory %d\n", MDBG_OFFSET(addr)); orig_offset = pool_offset(addr); offset = move_map(orig_offset); if (offset != orig_offset) { MDBG_MOVE("update ref %d %d -> %d\n", ao_scheme_is_pool_addr(ref) ? MDBG_OFFSET(ref) : -1, orig_offset, offset); *ref = ao_scheme_pool + offset; } if (busy(ao_scheme_busy, offset)) { MDBG_MOVE("already moved\n"); return 1; } mark(ao_scheme_busy, offset); ao_scheme_record(type, addr, ao_scheme_size(type, addr)); return 0; } static int ao_scheme_move(const struct ao_scheme_type *type, void **ref) { int ret; MDBG_MOVE("move object %d\n", MDBG_OFFSET(*ref)); MDBG_MOVE_IN(); ret = ao_scheme_move_memory(type, ref); if (!ret) { MDBG_MOVE("move recurse\n"); type->move(*ref); } MDBG_MOVE_OUT(); return ret; } int ao_scheme_poly_move(ao_poly *ref, uint8_t do_note_cons) { ao_poly p = *ref; int ret; void *addr; uint16_t offset, orig_offset; if (ao_scheme_poly_base_type(p) == AO_SCHEME_INT) return 1; addr = ao_scheme_ref(p); if (!ao_scheme_is_pool_addr(addr)) return 1; orig_offset = pool_offset(addr); offset = move_map(orig_offset); if (ao_scheme_poly_base_type(p) == AO_SCHEME_CONS && do_note_cons) { note_cons(orig_offset); ret = 1; } else { uint8_t type = ao_scheme_poly_base_type(p); const struct ao_scheme_type *lisp_type; if (type == AO_SCHEME_OTHER) type = ao_scheme_other_type(ao_scheme_pool + offset); lisp_type = ao_scheme_types[type]; #if DBG_MEM if (!lisp_type) ao_scheme_abort(); #endif /* inline ao_scheme_move to save stack space */ MDBG_MOVE("move object %d\n", MDBG_OFFSET(addr)); MDBG_MOVE_IN(); ret = ao_scheme_move_memory(lisp_type, &addr); if (!ret) { MDBG_MOVE("move recurse\n"); lisp_type->move(addr); } MDBG_MOVE_OUT(); } /* Re-write the poly value */ if (offset != orig_offset) { ao_poly np = ao_scheme_poly(ao_scheme_pool + offset, ao_scheme_poly_base_type(p)); MDBG_MOVE("poly %d moved %d -> %d\n", ao_scheme_poly_type(np), orig_offset, offset); *ref = np; } return ret; } #if DBG_MEM static void ao_scheme_validate(void) { chunk_low = 0; memset(ao_scheme_chunk, '\0', sizeof (ao_scheme_chunk)); walk(ao_scheme_mark_ref, ao_scheme_poly_mark_ref); } int dbg_allocs; #endif void * ao_scheme_alloc(int size) { void *addr; MDBG_DO(++dbg_allocs); MDBG_DO(if (dbg_validate) ao_scheme_validate()); size = ao_scheme_size_round(size); if (AO_SCHEME_POOL - ao_scheme_top < size && ao_scheme_collect(AO_SCHEME_COLLECT_INCREMENTAL) < size && ao_scheme_collect(AO_SCHEME_COLLECT_FULL) < size) { ao_scheme_error(AO_SCHEME_OOM, "out of memory"); return NULL; } addr = ao_scheme_pool + ao_scheme_top; ao_scheme_top += size; MDBG_MOVE("alloc %d size %d\n", MDBG_OFFSET(addr), size); return addr; } void ao_scheme_poly_stash(ao_poly p) { assert(stash_poly_ptr < AO_SCHEME_NUM_STASH); stash_poly[stash_poly_ptr++] = p; } ao_poly ao_scheme_poly_fetch(void) { ao_poly p; assert (stash_poly_ptr > 0); p = stash_poly[--stash_poly_ptr]; stash_poly[stash_poly_ptr] = AO_SCHEME_NIL; return p; } int ao_scheme_print_mark_addr(void *addr) { int offset; #if DBG_MEM if (ao_scheme_collecting) ao_scheme_abort(); #endif if (!ao_scheme_is_pool_addr(addr)) return 0; if (!ao_scheme_print_cleared) { ao_scheme_print_cleared = 1; memset(ao_scheme_busy, '\0', sizeof (ao_scheme_busy)); } offset = pool_offset(addr); if (busy(ao_scheme_busy, offset)) return 1; mark(ao_scheme_busy, offset); return 0; } void ao_scheme_print_clear_addr(void *addr) { int offset; #if DBG_MEM if (ao_scheme_collecting) ao_scheme_abort(); #endif if (!ao_scheme_is_pool_addr(addr)) return; if (!ao_scheme_print_cleared) return; offset = pool_offset(addr); clear(ao_scheme_busy, offset); } /* Notes that printing has started */ void ao_scheme_print_start(void) { ao_scheme_printing++; } /* Notes that printing has ended. Returns 1 if printing is still going on */ int ao_scheme_print_stop(void) { ao_scheme_printing--; if (ao_scheme_printing != 0) return 1; ao_scheme_print_cleared = 0; return 0; }