* OSes). This is useful for re-scavenging pages that are
* written during a GC. */
write_protected_cleared :1,
- /* the region the page is allocated to: 0 for a free page; 1
- * for boxed objects; 2 for unboxed objects. If the page is
- * free the following slots are invalid (well the bytes_used
- * must be 0). */
+ /* 000 free
+ * 10? boxed data
+ * 11? boxed code
+ * 01? unboxed data
+ * ??1 open region
+ *
+ * If the page is free the following slots are invalid, except
+ * for the bytes_used which must be zero. */
allocated :3,
/* If this page should not be moved during a GC then this flag
* is set. It's only valid during a GC for allocated pages. */
void gencgc_apply_code_fixups(struct code *old_code, struct code *new_code);
long update_dynamic_space_free_pointer(void);
-void gc_alloc_update_page_tables(int unboxed,
- struct alloc_region *alloc_region);
+void gc_alloc_update_page_tables(int page_type_flag, struct alloc_region *alloc_region);
void gc_alloc_update_all_page_tables(void);
void gc_set_region_empty(struct alloc_region *region);
/*
* predicates
*/
+
static inline boolean
space_matches_p(lispobj obj, generation_index_t space)
{
- page_index_t page_index=(void*)obj - (void *)DYNAMIC_SPACE_START;
- return ((page_index >= 0)
- && ((page_index =
- ((unsigned long)page_index)/PAGE_BYTES) < page_table_pages)
- && (page_table[page_index].gen == space));
+ if (obj >= DYNAMIC_SPACE_START) {
+ page_index_t page_index=((pointer_sized_uint_t)obj
+ - DYNAMIC_SPACE_START) / PAGE_BYTES;
+ return ((page_index < page_table_pages) &&
+ (page_table[page_index].gen == space));
+ } else {
+ return 0;
+ }
}
static inline boolean