X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fruntime%2Fgencgc.c;h=1023b6f2a2b4577450298bc3e399e2a8221fada1;hb=cdd026dddac3eaddbaa0221503e49e2673d54545;hp=0e787c30c3ac7d4f36bf2072c294a27e40481819;hpb=87cce4bfe714163f5ab7d211f439db567c7278d1;p=sbcl.git diff --git a/src/runtime/gencgc.c b/src/runtime/gencgc.c index 0e787c3..1023b6f 100644 --- a/src/runtime/gencgc.c +++ b/src/runtime/gencgc.c @@ -52,9 +52,6 @@ #include "genesis/instance.h" #include "genesis/layout.h" #include "gencgc.h" -#if defined(LUTEX_WIDETAG) -#include "pthread-lutex.h" -#endif #if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64) #include "genesis/cons.h" #endif @@ -81,7 +78,13 @@ enum { boolean enable_page_protection = 1; /* the minimum size (in bytes) for a large object*/ +#if (GENCGC_ALLOC_GRANULARITY >= PAGE_BYTES) && (GENCGC_ALLOC_GRANULARITY >= GENCGC_CARD_BYTES) long large_object_size = 4 * GENCGC_ALLOC_GRANULARITY; +#elif (GENCGC_CARD_BYTES >= PAGE_BYTES) && (GENCGC_CARD_BYTES >= GENCGC_ALLOC_GRANULARITY) +long large_object_size = 4 * GENCGC_CARD_BYTES; +#else +long large_object_size = 4 * PAGE_BYTES; +#endif /* @@ -308,14 +311,6 @@ struct generation { * prevent a GC when a large number of new live objects have been * added, in which case a GC could be a waste of time */ double minimum_age_before_gc; - - /* A linked list of lutex structures in this generation, used for - * implementing lutex finalization. */ -#ifdef LUTEX_WIDETAG - struct lutex *lutexes; -#else - void *lutexes; -#endif }; /* an array of generation structures. There needs to be one more @@ -358,6 +353,9 @@ static pthread_mutex_t allocation_lock = PTHREAD_MUTEX_INITIALIZER; extern unsigned long gencgc_release_granularity; unsigned long gencgc_release_granularity = GENCGC_RELEASE_GRANULARITY; +extern unsigned long gencgc_alloc_granularity; +unsigned long gencgc_alloc_granularity = GENCGC_ALLOC_GRANULARITY; + /* * miscellaneous heap functions @@ -627,6 +625,15 @@ zero_pages(page_index_t start, page_index_t end) { } +static void +zero_and_mark_pages(page_index_t start, page_index_t end) { + page_index_t i; + + zero_pages(start, end); + for (i = start; i <= end; i++) + page_table[i].need_to_zero = 0; +} + /* Zero the pages from START to END (inclusive), except for those * pages that are known to already zeroed. Mark all pages in the * ranges as non-zeroed. @@ -1263,84 +1270,87 @@ gc_find_freeish_pages(page_index_t *restart_page_ptr, long nbytes, { page_index_t first_page, last_page; page_index_t restart_page = *restart_page_ptr; + long nbytes_goal = nbytes; long bytes_found = 0; long most_bytes_found = 0; + page_index_t most_bytes_found_from, most_bytes_found_to; + int small_object = nbytes < GENCGC_CARD_BYTES; /* FIXME: assert(free_pages_lock is held); */ + if (nbytes_goal < gencgc_alloc_granularity) + nbytes_goal = gencgc_alloc_granularity; + /* Toggled by gc_and_save for heap compaction, normally -1. */ if (gencgc_alloc_start_page != -1) { restart_page = gencgc_alloc_start_page; } gc_assert(nbytes>=0); - if (((unsigned long)nbytes)>=GENCGC_CARD_BYTES) { - /* Search for a contiguous free space of at least nbytes, - * aligned on a page boundary. The page-alignment is strictly - * speaking needed only for objects at least large_object_size - * bytes in size. */ - do { - first_page = restart_page; - while ((first_page < page_table_pages) && - page_allocated_p(first_page)) + /* Search for a page with at least nbytes of space. We prefer + * not to split small objects on multiple pages, to reduce the + * number of contiguous allocation regions spaning multiple + * pages: this helps avoid excessive conservativism. + * + * For other objects, we guarantee that they start on their own + * page boundary. + */ + first_page = restart_page; + while (first_page < page_table_pages) { + bytes_found = 0; + if (page_free_p(first_page)) { + gc_assert(0 == page_table[first_page].bytes_used); + bytes_found = GENCGC_CARD_BYTES; + } else if (small_object && + (page_table[first_page].allocated == page_type_flag) && + (page_table[first_page].large_object == 0) && + (page_table[first_page].gen == gc_alloc_generation) && + (page_table[first_page].write_protected == 0) && + (page_table[first_page].dont_move == 0)) { + bytes_found = GENCGC_CARD_BYTES - page_table[first_page].bytes_used; + if (bytes_found < nbytes) { + if (bytes_found > most_bytes_found) + most_bytes_found = bytes_found; first_page++; - - last_page = first_page; - bytes_found = GENCGC_CARD_BYTES; - while ((bytes_found < nbytes) && - (last_page < (page_table_pages-1)) && - page_free_p(last_page+1)) { - last_page++; - bytes_found += GENCGC_CARD_BYTES; - gc_assert(0 == page_table[last_page].bytes_used); - gc_assert(0 == page_table[last_page].write_protected); + continue; } - if (bytes_found > most_bytes_found) - most_bytes_found = bytes_found; - restart_page = last_page + 1; - } while ((restart_page < page_table_pages) && (bytes_found < nbytes)); - - } else { - /* Search for a page with at least nbytes of space. We prefer - * not to split small objects on multiple pages, to reduce the - * number of contiguous allocation regions spaning multiple - * pages: this helps avoid excessive conservativism. */ - first_page = restart_page; - while (first_page < page_table_pages) { - if (page_free_p(first_page)) - { - gc_assert(0 == page_table[first_page].bytes_used); - bytes_found = GENCGC_CARD_BYTES; - break; - } - else if ((page_table[first_page].allocated == page_type_flag) && - (page_table[first_page].large_object == 0) && - (page_table[first_page].gen == gc_alloc_generation) && - (page_table[first_page].write_protected == 0) && - (page_table[first_page].dont_move == 0)) - { - bytes_found = GENCGC_CARD_BYTES - - page_table[first_page].bytes_used; - if (bytes_found > most_bytes_found) - most_bytes_found = bytes_found; - if (bytes_found >= nbytes) - break; - } + } else { first_page++; + continue; } - last_page = first_page; - restart_page = first_page + 1; + + gc_assert(page_table[first_page].write_protected == 0); + for (last_page = first_page+1; + ((last_page < page_table_pages) && + page_free_p(last_page) && + (bytes_found < nbytes_goal)); + last_page++) { + bytes_found += GENCGC_CARD_BYTES; + gc_assert(0 == page_table[last_page].bytes_used); + gc_assert(0 == page_table[last_page].write_protected); + } + + if (bytes_found > most_bytes_found) { + most_bytes_found = bytes_found; + most_bytes_found_from = first_page; + most_bytes_found_to = last_page; + } + if (bytes_found >= nbytes_goal) + break; + + first_page = last_page; } + bytes_found = most_bytes_found; + restart_page = first_page + 1; + /* Check for a failure */ if (bytes_found < nbytes) { gc_assert(restart_page >= page_table_pages); gc_heap_exhausted_error_or_lose(most_bytes_found, nbytes); } - gc_assert(page_table[first_page].write_protected == 0); - - *restart_page_ptr = first_page; - return last_page; + *restart_page_ptr = most_bytes_found_from; + return most_bytes_found_to-1; } /* Allocate bytes. All the rest of the special-purpose allocation @@ -2016,181 +2026,6 @@ trans_unboxed_large(lispobj object) return copy_large_unboxed_object(object, length); } #endif - - -/* - * Lutexes. Using the normal finalization machinery for finalizing - * lutexes is tricky, since the finalization depends on working lutexes. - * So we track the lutexes in the GC and finalize them manually. - */ - -#if defined(LUTEX_WIDETAG) - -/* - * Start tracking LUTEX in the GC, by adding it to the linked list of - * lutexes in the nursery generation. The caller is responsible for - * locking, and GCs must be inhibited until the registration is - * complete. - */ -void -gencgc_register_lutex (struct lutex *lutex) { - int index = find_page_index(lutex); - generation_index_t gen; - struct lutex *head; - - /* This lutex is in static space, so we don't need to worry about - * finalizing it. - */ - if (index == -1) - return; - - gen = page_table[index].gen; - - gc_assert(gen >= 0); - gc_assert(gen < NUM_GENERATIONS); - - head = generations[gen].lutexes; - - lutex->gen = gen; - lutex->next = head; - lutex->prev = NULL; - if (head) - head->prev = lutex; - generations[gen].lutexes = lutex; -} - -/* - * Stop tracking LUTEX in the GC by removing it from the appropriate - * linked lists. This will only be called during GC, so no locking is - * needed. - */ -void -gencgc_unregister_lutex (struct lutex *lutex) { - if (lutex->prev) { - lutex->prev->next = lutex->next; - } else { - generations[lutex->gen].lutexes = lutex->next; - } - - if (lutex->next) { - lutex->next->prev = lutex->prev; - } - - lutex->next = NULL; - lutex->prev = NULL; - lutex->gen = -1; -} - -/* - * Mark all lutexes in generation GEN as not live. - */ -static void -unmark_lutexes (generation_index_t gen) { - struct lutex *lutex = generations[gen].lutexes; - - while (lutex) { - lutex->live = 0; - lutex = lutex->next; - } -} - -/* - * Finalize all lutexes in generation GEN that have not been marked live. - */ -static void -reap_lutexes (generation_index_t gen) { - struct lutex *lutex = generations[gen].lutexes; - - while (lutex) { - struct lutex *next = lutex->next; - if (!lutex->live) { - lutex_destroy((tagged_lutex_t) lutex); - gencgc_unregister_lutex(lutex); - } - lutex = next; - } -} - -/* - * Mark LUTEX as live. - */ -static void -mark_lutex (lispobj tagged_lutex) { - struct lutex *lutex = (struct lutex*) native_pointer(tagged_lutex); - - lutex->live = 1; -} - -/* - * Move all lutexes in generation FROM to generation TO. - */ -static void -move_lutexes (generation_index_t from, generation_index_t to) { - struct lutex *tail = generations[from].lutexes; - - /* Nothing to move */ - if (!tail) - return; - - /* Change the generation of the lutexes in FROM. */ - while (tail->next) { - tail->gen = to; - tail = tail->next; - } - tail->gen = to; - - /* Link the last lutex in the FROM list to the start of the TO list */ - tail->next = generations[to].lutexes; - - /* And vice versa */ - if (generations[to].lutexes) { - generations[to].lutexes->prev = tail; - } - - /* And update the generations structures to match this */ - generations[to].lutexes = generations[from].lutexes; - generations[from].lutexes = NULL; -} - -static long -scav_lutex(lispobj *where, lispobj object) -{ - mark_lutex((lispobj) where); - - return CEILING(sizeof(struct lutex)/sizeof(lispobj), 2); -} - -static lispobj -trans_lutex(lispobj object) -{ - struct lutex *lutex = (struct lutex *) native_pointer(object); - lispobj copied; - size_t words = CEILING(sizeof(struct lutex)/sizeof(lispobj), 2); - gc_assert(is_lisp_pointer(object)); - copied = copy_object(object, words); - - /* Update the links, since the lutex moved in memory. */ - if (lutex->next) { - lutex->next->prev = (struct lutex *) native_pointer(copied); - } - - if (lutex->prev) { - lutex->prev->next = (struct lutex *) native_pointer(copied); - } else { - generations[lutex->gen].lutexes = - (struct lutex *) native_pointer(copied); - } - - return copied; -} - -static long -size_lutex(lispobj *where) -{ - return CEILING(sizeof(struct lutex)/sizeof(lispobj), 2); -} -#endif /* LUTEX_WIDETAG */ - /* * weak pointers @@ -2295,7 +2130,7 @@ looks_like_valid_lisp_pointer_p(lispobj *pointer, lispobj *start_addr) case CODE_HEADER_WIDETAG: /* Make sure we actually point to a function in the code object, * as opposed to a random point there. */ - if (SIMPLE_FUN_HEADER_WIDETAG==widetag_of(*(pointer-FUN_POINTER_LOWTAG))) + if (SIMPLE_FUN_HEADER_WIDETAG==widetag_of(*((lispobj *)(((unsigned long)pointer)-FUN_POINTER_LOWTAG)))) return 1; else return 0; @@ -2477,14 +2312,11 @@ looks_like_valid_lisp_pointer_p(lispobj *pointer, lispobj *start_addr) case SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_15_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG: -#endif + + case SIMPLE_ARRAY_UNSIGNED_FIXNUM_WIDETAG: + case SIMPLE_ARRAY_UNSIGNED_BYTE_31_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG case SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG: #endif @@ -2497,15 +2329,12 @@ looks_like_valid_lisp_pointer_p(lispobj *pointer, lispobj *start_addr) #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG: -#endif + + case SIMPLE_ARRAY_FIXNUM_WIDETAG: + #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG: #endif @@ -2525,9 +2354,6 @@ looks_like_valid_lisp_pointer_p(lispobj *pointer, lispobj *start_addr) #endif case SAP_WIDETAG: case WEAK_POINTER_WIDETAG: -#ifdef LUTEX_WIDETAG - case LUTEX_WIDETAG: -#endif break; default: @@ -2635,14 +2461,11 @@ maybe_adjust_large_object(lispobj *where) case SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_15_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG: -#endif + + case SIMPLE_ARRAY_UNSIGNED_FIXNUM_WIDETAG: + case SIMPLE_ARRAY_UNSIGNED_BYTE_31_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG case SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG: #endif @@ -2655,15 +2478,12 @@ maybe_adjust_large_object(lispobj *where) #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG: -#endif + + case SIMPLE_ARRAY_FIXNUM_WIDETAG: + #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG: #endif @@ -3656,14 +3476,11 @@ verify_space(lispobj *start, size_t words) case SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_15_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_29_WIDETAG: -#endif + + case SIMPLE_ARRAY_UNSIGNED_FIXNUM_WIDETAG: + case SIMPLE_ARRAY_UNSIGNED_BYTE_31_WIDETAG: case SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG: -#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG - case SIMPLE_ARRAY_UNSIGNED_BYTE_60_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG case SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG: #endif @@ -3676,15 +3493,12 @@ verify_space(lispobj *start, size_t words) #ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_30_WIDETAG: -#endif + + case SIMPLE_ARRAY_FIXNUM_WIDETAG: + #ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG: #endif -#ifdef SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG - case SIMPLE_ARRAY_SIGNED_BYTE_61_WIDETAG: -#endif #ifdef SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG case SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG: #endif @@ -3704,9 +3518,6 @@ verify_space(lispobj *start, size_t words) #endif case SAP_WIDETAG: case WEAK_POINTER_WIDETAG: -#ifdef LUTEX_WIDETAG - case LUTEX_WIDETAG: -#endif #ifdef NO_TLS_VALUE_MARKER_WIDETAG case NO_TLS_VALUE_MARKER_WIDETAG: #endif @@ -3965,10 +3776,6 @@ garbage_collect_generation(generation_index_t generation, int raise) /* Initialize the weak pointer list. */ weak_pointers = NULL; -#ifdef LUTEX_WIDETAG - unmark_lutexes(generation); -#endif - /* When a generation is not being raised it is transported to a * temporary generation (NUM_GENERATIONS), and lowered when * done. Set up this new generation. There should be no pages @@ -4117,7 +3924,7 @@ garbage_collect_generation(generation_index_t generation, int raise) scavenge((lispobj *) th->binding_stack_start,len); #ifdef LISP_FEATURE_SB_THREAD /* do the tls as well */ - len=fixnum_value(SymbolValue(FREE_TLS_INDEX,0)) - + len=(SymbolValue(FREE_TLS_INDEX,0) >> WORD_SHIFT) - (sizeof (struct thread))/(sizeof (lispobj)); scavenge((lispobj *) (th+1),len); #endif @@ -4238,11 +4045,6 @@ garbage_collect_generation(generation_index_t generation, int raise) else ++generations[generation].num_gc; -#ifdef LUTEX_WIDETAG - reap_lutexes(generation); - if (raise) - move_lutexes(generation, generation+1); -#endif } /* Update last_free_page, then SymbolValue(ALLOCATION_POINTER). */ @@ -4262,22 +4064,16 @@ update_dynamic_space_free_pointer(void) } static void -remap_page_range (page_index_t from, page_index_t to, int forcibly) +remap_page_range (page_index_t from, page_index_t to) { /* There's a mysterious Solaris/x86 problem with using mmap * tricks for memory zeroing. See sbcl-devel thread * "Re: patch: standalone executable redux". - * - * Since pages don't have to be zeroed ahead of time, only do - * so when called from purify. */ #if defined(LISP_FEATURE_SUNOS) - if (forcibly) - zero_pages(from, to); + zero_and_mark_pages(from, to); #else - page_index_t aligned_from, aligned_end, end = to+1; - - const page_index_t + const page_index_t release_granularity = gencgc_release_granularity/GENCGC_CARD_BYTES, release_mask = release_granularity-1, end = to+1, @@ -4286,29 +4082,24 @@ remap_page_range (page_index_t from, page_index_t to, int forcibly) if (aligned_from < aligned_end) { zero_pages_with_mmap(aligned_from, aligned_end-1); - if (forcibly) { - if (aligned_from != from) - zero_pages(from, aligned_from-1); - if (aligned_end != end) - zero_pages(aligned_end, end-1); - } - } else if (forcibly) - zero_pages(from, to); + if (aligned_from != from) + zero_and_mark_pages(from, aligned_from-1); + if (aligned_end != end) + zero_and_mark_pages(aligned_end, end-1); + } else { + zero_and_mark_pages(from, to); + } #endif } static void remap_free_pages (page_index_t from, page_index_t to, int forcibly) { - page_index_t first_page, last_page, - first_aligned_page, last_aligned_page; + page_index_t first_page, last_page; if (forcibly) - return remap_page_range(from, to, 1); + return remap_page_range(from, to); - /* See comment above about mysterious failures on Solaris/x86. - */ -#if !defined(LISP_FEATURE_SUNOS) for (first_page = from; first_page <= to; first_page++) { if (page_allocated_p(first_page) || (page_table[first_page].need_to_zero == 0)) @@ -4320,11 +4111,10 @@ remap_free_pages (page_index_t from, page_index_t to, int forcibly) (page_table[last_page].need_to_zero == 1)) last_page++; - remap_page_range(first_page, last_page-1, 0); + remap_page_range(first_page, last_page-1); first_page = last_page; } -#endif } generation_index_t small_generation_limit = 1; @@ -4542,7 +4332,6 @@ gc_free_heap(void) generations[page].gc_trigger = 2000000; generations[page].num_gc = 0; generations[page].cum_sum_bytes_allocated = 0; - generations[page].lutexes = NULL; } if (gencgc_verbose > 1) @@ -4585,12 +4374,6 @@ gc_init(void) scavtab[WEAK_POINTER_WIDETAG] = scav_weak_pointer; transother[SIMPLE_ARRAY_WIDETAG] = trans_boxed_large; -#ifdef LUTEX_WIDETAG - scavtab[LUTEX_WIDETAG] = scav_lutex; - transother[LUTEX_WIDETAG] = trans_lutex; - sizetab[LUTEX_WIDETAG] = size_lutex; -#endif - heap_base = (void*)DYNAMIC_SPACE_START; /* The page structures are initialized implicitly when page_table @@ -4645,7 +4428,6 @@ gc_init(void) generations[i].bytes_consed_between_gc = 2000000; generations[i].number_of_gcs_before_promotion = 1; generations[i].minimum_age_before_gc = 0.75; - generations[i].lutexes = NULL; } /* Initialize gc_alloc. */ @@ -4694,13 +4476,6 @@ gencgc_pickup_dynamic(void) page++; } while (page_address(page) < alloc_ptr); -#ifdef LUTEX_WIDETAG - /* Lutexes have been registered in generation 0 by coreparse, and - * need to be moved to the right one manually. - */ - move_lutexes(0, PSEUDO_STATIC_GENERATION); -#endif - last_free_page = page; generations[gen].bytes_allocated = npage_bytes(page); @@ -4973,7 +4748,8 @@ prepare_for_final_gc () * SB!VM:RESTART-LISP-FUNCTION */ void gc_and_save(char *filename, boolean prepend_runtime, - boolean save_runtime_options) + boolean save_runtime_options, + boolean compressed, int compression_level) { FILE *file; void *runtime_bytes = NULL; @@ -5008,7 +4784,8 @@ gc_and_save(char *filename, boolean prepend_runtime, /* The dumper doesn't know that pages need to be zeroed before use. */ zero_all_free_pages(); save_to_filehandle(file, filename, SymbolValue(RESTART_LISP_FUNCTION,0), - prepend_runtime, save_runtime_options); + prepend_runtime, save_runtime_options, + compressed ? compression_level : COMPRESSION_LEVEL_NONE); /* Oops. Save still managed to fail. Since we've mangled the stack * beyond hope, there's not much we can do. * (beyond FUNCALLing RESTART_LISP_FUNCTION, but I suspect that's