ikarus/bin/ikarus-collect.c

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#include "ikarus.h"
#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <unistd.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <assert.h>
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#include <errno.h>
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#define forward_ptr ((ikp)-1)
#define minimum_heap_size (pagesize * 1024 * 4)
#define maximum_heap_size (pagesize * 1024 * 8)
#define minimum_stack_size (pagesize * 128)
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#define accounting 0
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#if accounting
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static int pair_count = 0;
static int symbol_count = 0;
static int closure_count = 0;
static int vector_count = 0;
static int record_count = 0;
static int continuation_count = 0;
static int string_count = 0;
static int htable_count = 0;
#endif
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typedef struct qupages_t{
ikp p; /* pointer to the scan start */
ikp q; /* pointer to the scan end */
struct qupages_t* next;
} qupages_t;
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typedef struct{
ikp ap;
ikp aq;
ikp ep;
ikp base;
} meta_t;
#define meta_ptrs 0
#define meta_code 1
#define meta_data 2
#define meta_weak 3
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#define meta_pair 4
#define meta_symbol 5
#define meta_count 6
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static int extension_amount[meta_count] = {
1 * pagesize,
1 * pagesize,
1 * pagesize,
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1 * pagesize,
1 * pagesize,
1 * pagesize,
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};
static unsigned int meta_mt[meta_count] = {
pointers_mt,
code_mt,
data_mt,
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weak_pairs_mt,
pointers_mt,
symbols_mt
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};
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typedef struct gc_t{
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meta_t meta[generation_count][meta_count];
qupages_t* queues [meta_count];
ikpcb* pcb;
unsigned int* segment_vector;
int collect_gen;
ikp tconc_ap;
ikp tconc_ep;
ikp tconc_base;
ikpages* tconc_queue;
//ik_guardian_table* final_guardians;
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} gc_t;
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static unsigned int
next_gen_tag[generation_count] = {
(4 << meta_dirty_shift) | 1 | new_gen_tag,
(2 << meta_dirty_shift) | 2 | new_gen_tag,
(1 << meta_dirty_shift) | 3 | new_gen_tag,
(0 << meta_dirty_shift) | 4 | new_gen_tag,
(0 << meta_dirty_shift) | 4 | new_gen_tag
};
static ikp
meta_alloc_extending(int size, int old_gen, gc_t* gc, int meta_id){
int mapsize = align_to_next_page(size);
if(mapsize < extension_amount[meta_id]){
mapsize = extension_amount[meta_id];
}
meta_t* meta = &gc->meta[old_gen][meta_id];
if((meta_id != meta_data) && meta->base){
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qupages_t* p = ik_malloc(sizeof(qupages_t));
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ikp aq = meta->aq;
ikp ap = meta->ap;
ikp ep = meta->ep;
p->p = aq;
p->q = ap;
p->next = gc->queues[meta_id];
gc->queues[meta_id] = p;
ikp x = ap;
while(x < ep){
ref(x, 0) = 0;
x += wordsize;
}
}
ikp mem = ik_mmap_typed(
mapsize,
meta_mt[meta_id] | next_gen_tag[old_gen],
gc->pcb);
gc->segment_vector = gc->pcb->segment_vector;
meta->ap = mem + size;
meta->aq = mem;
meta->ep = mem + mapsize;
meta->base = mem;
return mem;
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}
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static inline ikp
meta_alloc(int size, int old_gen, gc_t* gc, int meta_id){
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assert(size == align(size));
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meta_t* meta = &gc->meta[old_gen][meta_id];
ikp ap = meta->ap;
ikp ep = meta->ep;
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ikp nap = ap + size;
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if(nap > ep){
return meta_alloc_extending(size, old_gen, gc, meta_id);
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} else {
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meta->ap = nap;
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return ap;
}
}
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static inline ikp
gc_alloc_new_ptr(int size, int old_gen, gc_t* gc){
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assert(size == align(size));
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return meta_alloc(size, old_gen, gc, meta_ptrs);
}
static inline ikp
gc_alloc_new_large_ptr(int size, int old_gen, gc_t* gc){
int memreq = align_to_next_page(size);
ikp mem =
ik_mmap_typed(memreq,
pointers_mt | large_object_tag | next_gen_tag[old_gen],
gc->pcb);
gc->segment_vector = gc->pcb->segment_vector;
qupages_t* p = ik_malloc(sizeof(qupages_t));
p->p = mem;
p->q = mem+size;
bzero(mem+size, memreq-size);
p->next = gc->queues[meta_ptrs];
gc->queues[meta_ptrs] = p;
return mem;
}
static inline void
enqueue_large_ptr(ikp mem, int size, int old_gen, gc_t* gc){
int i = page_index(mem);
int j = page_index(mem+size-1);
while(i<=j){
gc->segment_vector[i] =
pointers_mt | large_object_tag | next_gen_tag[old_gen];
i++;
}
qupages_t* p = ik_malloc(sizeof(qupages_t));
p->p = mem;
p->q = mem+size;
p->next = gc->queues[meta_ptrs];
gc->queues[meta_ptrs] = p;
}
#if 0
static inline ikp
gc_alloc_new_symbol(int old_gen, gc_t* gc){
assert(symbol_size == align(symbol_size));
return meta_alloc(symbol_size, old_gen, gc, meta_symbol);
}
#endif
static inline ikp
gc_alloc_new_symbol_record(int old_gen, gc_t* gc){
assert(symbol_record_size == align(symbol_record_size));
return meta_alloc(symbol_record_size, old_gen, gc, meta_symbol);
}
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static inline ikp
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gc_alloc_new_pair(int old_gen, gc_t* gc){
return meta_alloc(pair_size, old_gen, gc, meta_pair);
}
static inline ikp
gc_alloc_new_weak_pair(int old_gen, gc_t* gc){
meta_t* meta = &gc->meta[old_gen][meta_weak];
ikp ap = meta->ap;
ikp ep = meta->ep;
ikp nap = ap + pair_size;
if(nap > ep){
ikp mem = ik_mmap_typed(
pagesize,
meta_mt[meta_weak] | next_gen_tag[old_gen],
gc->pcb);
gc->segment_vector = gc->pcb->segment_vector;
meta->ap = mem + pair_size;
meta->aq = mem;
meta->ep = mem + pagesize;
meta->base = mem;
return mem;
} else {
meta->ap = nap;
return ap;
}
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}
static inline ikp
gc_alloc_new_data(int size, int old_gen, gc_t* gc){
assert(size == align(size));
return meta_alloc(size, old_gen, gc, meta_data);
}
static inline ikp
gc_alloc_new_code(int size, int old_gen, gc_t* gc){
assert(size == align(size));
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if(size < pagesize){
return meta_alloc(size, old_gen, gc, meta_code);
} else {
int memreq = align_to_next_page(size);
ikp mem = ik_mmap_code(memreq, next_gen_tag[old_gen], gc->pcb);
gc->segment_vector = gc->pcb->segment_vector;
qupages_t* p = ik_malloc(sizeof(qupages_t));
p->p = mem;
p->q = mem+size;
bzero(mem+size, memreq-size);
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p->next = gc->queues[meta_code];
gc->queues[meta_code] = p;
return mem;
}
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}
static void
add_to_collect_count(ikpcb* pcb, int bytes){
int minor = bytes + pcb->allocation_count_minor;
while(minor >= most_bytes_in_minor){
minor -= most_bytes_in_minor;
pcb->allocation_count_major++;
}
pcb->allocation_count_minor = minor;
}
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static void
gc_tconc_push_extending(gc_t* gc, ikp tcbucket){
if(gc->tconc_base){
ikpages* p = ik_malloc(sizeof(ikpages));
p->base = gc->tconc_base;
p->size = pagesize;
p->next = gc->tconc_queue;
gc->tconc_queue = p;
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}
ikp ap =
ik_mmap_typed(pagesize,
meta_mt[meta_ptrs] | next_gen_tag[gc->collect_gen],
//meta_mt[meta_ptrs] | next_gen_tag[0],
gc->pcb);
add_to_collect_count(gc->pcb, pagesize);
gc->segment_vector = gc->pcb->segment_vector;
bzero(ap, pagesize);
ikp nap = ap + 2*wordsize;
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gc->tconc_base = ap;
gc->tconc_ap = nap;
gc->tconc_ep = ap + pagesize;
ref(ap,0) = tcbucket;
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}
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static inline void
gc_tconc_push(gc_t* gc, ikp tcbucket){
ikp ap = gc->tconc_ap;
ikp nap = ap + 2*wordsize;
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if(nap > gc->tconc_ep){
gc_tconc_push_extending(gc, tcbucket);
} else {
gc->tconc_ap = nap;
ref(ap,0) = tcbucket;
}
}
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#ifndef NDEBUG
static ikp add_object_proc(gc_t* gc, ikp x, char* caller);
#define add_object(gc,x,caller) add_object_proc(gc,x,caller)
#else
static ikp add_object_proc(gc_t* gc, ikp x);
#define add_object(gc,x,caller) add_object_proc(gc,x)
#endif
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static void collect_stack(gc_t*, ikp top, ikp base);
static void collect_loop(gc_t*);
static void forward_guardians(gc_t*);
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static void fix_weak_pointers(gc_t*);
static void gc_add_tconcs(gc_t*);
static void empty_dropped_guardians(gc_t*);
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/* ik_collect is called from scheme under the following conditions:
* 1. An attempt is made to allocate a small object and the ap is above
* the red line.
* 2. The current frame of the call is dead, so, upon return from ik_collect,
* the caller returns to its caller.
* 3. The frame-pointer of the caller to S_collect is saved at
* pcb->frame_pointer. No variables are live at that frame except for
* the return point (at *(pcb->frame_pointer)).
* 4. S_collect must return a new ap (in pcb->allocation_pointer) that has
* at least 2 pages of memory free.
* 5. S_collect must also update pcb->allocaton_redline to be 2 pages below
* the real end of heap.
* 6. ik_collect should not move the stack.
*/
ikpcb* ik_collect(int req, ikpcb* pcb);
ikpcb* ik_collect_vararg(int req, ikpcb* pcb){
return ik_collect(req, pcb);
}
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static int collection_id_to_gen(int id){
if((id & 255) == 255) { return 4; }
if((id & 63) == 63) { return 3; }
if((id & 15) == 15) { return 2; }
if((id & 3) == 3) { return 1; }
return 0;
}
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static void scan_dirty_pages(gc_t*);
static void deallocate_unused_pages(gc_t*);
static void fix_new_pages(gc_t* gc);
extern void verify_integrity(ikpcb* pcb, char*);
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ikpcb*
ik_collect(int mem_req, ikpcb* pcb){
#ifndef NDEBUG
verify_integrity(pcb, "entry");
#endif
{ /* ACCOUNTING */
int bytes = ((int)pcb->allocation_pointer) -
((int)pcb->heap_base);
add_to_collect_count(pcb, bytes);
}
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struct rusage t0, t1;
struct timeval rt0, rt1;
gettimeofday(&rt0, 0);
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getrusage(RUSAGE_SELF, &t0);
pcb->collect_key = false_object;
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gc_t gc;
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bzero(&gc, sizeof(gc_t));
gc.pcb = pcb;
gc.segment_vector = pcb->segment_vector;
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gc.collect_gen = collection_id_to_gen(pcb->collection_id);
pcb->collection_id++;
#ifndef NDEBUG
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fprintf(stderr, "ik_collect entry %d free=%d (collect gen=%d/id=%d)\n",
mem_req,
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(unsigned int) pcb->allocation_redline
- (unsigned int) pcb->allocation_pointer,
gc.collect_gen, pcb->collection_id-1);
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#endif
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/* cache heap-pages to delete later */
ikpages* old_heap_pages = pcb->heap_pages;
pcb->heap_pages = 0;
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/* the roots are:
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* 0. dirty pages not collected in this run
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* 1. the stack
* 2. the next continuation
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* 3. the symbol-table
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*/
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scan_dirty_pages(&gc);
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collect_stack(&gc, pcb->frame_pointer, pcb->frame_base - wordsize);
pcb->next_k = add_object(&gc, pcb->next_k, "next_k");
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pcb->symbol_table = add_object(&gc, pcb->symbol_table, "symbol_table");
pcb->gensym_table = add_object(&gc, pcb->gensym_table, "gensym_table");
pcb->arg_list = add_object(&gc, pcb->arg_list, "args_list_foo");
pcb->base_rtd = add_object(&gc, pcb->base_rtd, "base_rtd");
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/* now we trace all live objects */
collect_loop(&gc);
/* next we trace all guardian/guarded objects,
the procedure does a collect_loop at the end */
#ifndef NDEBUG
fprintf(stderr, "forwarding guardians ...\n");
#endif
forward_guardians(&gc);
#ifndef NDEBUG
fprintf(stderr, "done\n");
#endif
collect_loop(&gc);
//guardians_loop_old(&gc);
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/* does not allocate, only bwp's dead pointers */
fix_weak_pointers(&gc);
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/* now deallocate all unused pages */
deallocate_unused_pages(&gc);
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fix_new_pages(&gc);
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pcb->allocation_pointer = pcb->heap_base;
/* does not allocate */
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gc_add_tconcs(&gc);
/* does not allocate */
#ifndef NDEBUG
fprintf(stderr, "emptying guardians ...\n");
#endif
empty_dropped_guardians(&gc);
#ifndef NDEBUG
fprintf(stderr, "done\n");
#endif
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pcb->weak_pairs_ap = 0;
pcb->weak_pairs_ep = 0;
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#if accounting
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fprintf(stderr,
"[%d cons|%d sym|%d cls|%d vec|%d rec|%d cck|%d str|%d htb]\n",
pair_count,
symbol_count,
closure_count,
vector_count,
record_count,
continuation_count,
string_count,
htable_count);
pair_count = 0;
symbol_count = 0;
closure_count = 0;
vector_count = 0;
record_count = 0;
continuation_count = 0;
string_count = 0;
htable_count = 0;
#endif
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//ik_dump_metatable(pcb);
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#ifndef NDEBUG
fprintf(stderr, "collect done\n");
#endif
/* delete all old heap pages */
if(old_heap_pages){
ikpages* p = old_heap_pages;
do{
ikpages* next = p->next;
ik_munmap_from_segment(p->base, p->size, pcb);
ik_free(p, sizeof(ikpages));
p=next;
} while(p);
old_heap_pages = 0;
}
int free_space =
((unsigned int)pcb->allocation_redline) -
((unsigned int)pcb->allocation_pointer);
#define HEAPSIZE (1024 * 4096)
if((free_space <= mem_req) || (pcb->heap_size < HEAPSIZE)){
#ifndef NDEBUG
fprintf(stderr, "REQ=%d, got %d\n", mem_req, free_space);
#endif
int memsize = (mem_req>HEAPSIZE) ? mem_req : HEAPSIZE;
memsize = align_to_next_page(memsize);
ik_munmap_from_segment(
pcb->heap_base,
pcb->heap_size,
pcb);
ikp ptr = ik_mmap_mixed(memsize+2*pagesize, pcb);
pcb->allocation_pointer = ptr;
pcb->allocation_redline = ptr+memsize;
pcb->heap_base = ptr;
pcb->heap_size = memsize+2*pagesize;
}
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#ifndef NDEBUG
ikp x = pcb->allocation_pointer;
while(x < pcb->allocation_redline){
ref(x, 0) = (ikp)(0x1234FFFF);
x+=wordsize;
}
#endif
#ifndef NDEBUG
verify_integrity(pcb, "exit");
#endif
getrusage(RUSAGE_SELF, &t1);
gettimeofday(&rt1, 0);
pcb->collect_utime.tv_usec += t1.ru_utime.tv_usec - t0.ru_utime.tv_usec;
pcb->collect_utime.tv_sec += t1.ru_utime.tv_sec - t0.ru_utime.tv_sec;
if (pcb->collect_utime.tv_usec >= 1000000){
pcb->collect_utime.tv_usec -= 1000000;
pcb->collect_utime.tv_sec += 1;
}
else if (pcb->collect_utime.tv_usec < 0){
pcb->collect_utime.tv_usec += 1000000;
pcb->collect_utime.tv_sec -= 1;
}
pcb->collect_stime.tv_usec += t1.ru_stime.tv_usec - t0.ru_stime.tv_usec;
pcb->collect_stime.tv_sec += t1.ru_stime.tv_sec - t0.ru_stime.tv_sec;
if (pcb->collect_stime.tv_usec >= 1000000){
pcb->collect_stime.tv_usec -= 1000000;
pcb->collect_stime.tv_sec += 1;
}
else if (pcb->collect_stime.tv_usec < 0){
pcb->collect_stime.tv_usec += 1000000;
pcb->collect_stime.tv_sec -= 1;
}
pcb->collect_rtime.tv_usec += rt1.tv_usec - rt0.tv_usec;
pcb->collect_rtime.tv_sec += rt1.tv_sec - rt0.tv_sec;
if (pcb->collect_rtime.tv_usec >= 1000000){
pcb->collect_rtime.tv_usec -= 1000000;
pcb->collect_rtime.tv_sec += 1;
}
else if (pcb->collect_rtime.tv_usec < 0){
pcb->collect_rtime.tv_usec += 1000000;
pcb->collect_rtime.tv_sec -= 1;
}
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return pcb;
}
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static inline int
is_live(ikp x, gc_t* gc){
if(is_fixnum(x)){
return 1;
}
int tag = tagof(x);
if(tag == immediate_tag){
return 1;
}
if(ref(x, -tag) == forward_ptr){
return 1;
}
unsigned int t = gc->segment_vector[page_index(x)];
int gen = t & gen_mask;
if(gen > gc->collect_gen){
return 1;
}
return 0;
}
static inline int
next_gen(int i){
return ((i == generation_count) ? generation_count : (i+1));
}
static ik_ptr_page*
move_guardian(ikp x, ik_ptr_page* dst, ik_ptr_page** cache){
if((dst == 0) || (dst->count == ik_ptr_page_size)){
ik_ptr_page* y = *cache;
if(y){
*cache = y->next;
} else {
y = ik_mmap(sizeof(ik_ptr_page));
}
y->count = 0;
y->next = dst;
dst = y;
}
dst->ptr[dst->count++] = x;
return dst;
}
static int
forward_guardians_initial(gc_t* gc,
ik_ptr_page** cache,
ik_ptr_page** dead_tc_dead_obj_list,
ik_ptr_page** live_tc_dead_obj_list,
ik_ptr_page** dead_tc_live_obj_list,
ik_ptr_page** live_tc_live_obj_list){
int gen;
int seen_live_tc_dead_obj = 0;
ikpcb* pcb = gc->pcb;
/* move guardians[0..g] to dead/live lists */
for(gen=0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src = pcb->guardians[gen];
ik_ptr_page* dead_dead = 0;
ik_ptr_page* dead_live = 0;
ik_ptr_page* live_dead = 0;
ik_ptr_page* live_live = 0;
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
ikp a = src->ptr[i];
ikp tc = ref(a, off_car);
ikp obj = ref(a, off_cdr);
if(is_live(tc, gc)){
if(is_live(obj, gc)){
live_live = move_guardian(a, live_live, cache);
} else {
live_dead = move_guardian(a, live_dead, cache);
}
} else {
if(is_live(obj, gc)){
dead_live = move_guardian(a, dead_live, cache);
} else {
dead_dead = move_guardian(a, dead_dead, cache);
}
}
}
ik_ptr_page* next = src->next;
src->next = *cache;
*cache = src;
src = next;
}
if(live_dead) {
seen_live_tc_dead_obj = 1;
}
dead_tc_dead_obj_list[gen] = dead_dead;
live_tc_dead_obj_list[gen] = live_dead;
dead_tc_live_obj_list[gen] = dead_live;
live_tc_live_obj_list[gen] = live_live;
pcb->guardians[gen] = 0;
}
return seen_live_tc_dead_obj;
}
static void
forward_guardians_revive_dead(gc_t* gc,
ik_ptr_page** live_tc_dead_obj_list){
int gen;
for(gen=0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src = live_tc_dead_obj_list[gen];
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
ikp a = src->ptr[i];
ikp obj = ref(a, off_cdr);
add_object(gc, obj, "guardian1");
}
src = src->next;
}
}
}
static int
forward_guardians_process_tconcs(gc_t* gc,
ik_ptr_page** cache,
ik_ptr_page** dead_tc_dead_obj_list,
ik_ptr_page** live_tc_dead_obj_list,
ik_ptr_page** dead_tc_live_obj_list,
ik_ptr_page** live_tc_live_obj_list){
int gen;
int some_were_revived = 0;
/* objects in dead_tc_live_obj_list whos tconcs have become
alive must move to live_tc_live_obj list */
for(gen=0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src = dead_tc_live_obj_list[gen];
ik_ptr_page* live = live_tc_live_obj_list[gen];
ik_ptr_page* dead = 0;
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
ikp a = src->ptr[i];
ikp tc = ref(a, off_car);
if(is_live(tc, gc)){
live = move_guardian(a, live, cache);
} else {
dead = move_guardian(a, dead, cache);
}
}
ik_ptr_page* next = src->next;
src->next = *cache;
*cache = src;
src = next;
}
live_tc_live_obj_list[gen] = live;
dead_tc_live_obj_list[gen] = dead;
}
/* objects in dead_tc_dead_obj_list whos tconcs have become
alive must move to live_tc_dead_obj list
obj must be resurrected */
for(gen=0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src = dead_tc_dead_obj_list[gen];
ik_ptr_page* dead = 0;
ik_ptr_page* live = live_tc_dead_obj_list[gen];
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
ikp a = src->ptr[i];
ikp tc = ref(a, off_car);
if(is_live(tc, gc)){
some_were_revived = 1;
add_object(gc, ref(a, off_cdr), "guardian2");
live = move_guardian(a, live, cache);
} else {
dead = move_guardian(a, dead, cache);
}
}
ik_ptr_page* next = src->next;
src->next = *cache;
*cache = src;
src = next;
}
live_tc_dead_obj_list[gen] = live;
dead_tc_dead_obj_list[gen] = dead;
}
return some_were_revived;
}
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static void
forward_guardians(gc_t* gc){
ikpcb* pcb = gc->pcb;
ik_ptr_page* dead_tc_dead_obj_list[generation_count];
ik_ptr_page* live_tc_dead_obj_list[generation_count];
ik_ptr_page* dead_tc_live_obj_list[generation_count];
ik_ptr_page* live_tc_live_obj_list[generation_count];
ik_ptr_page* cache = 0;
int seen_live_tc_dead_obj =
forward_guardians_initial(gc, &cache,
dead_tc_dead_obj_list, live_tc_dead_obj_list,
dead_tc_live_obj_list, live_tc_live_obj_list);
if (seen_live_tc_dead_obj){
/* objects in live_tc_dead_obj_list must be revived */
forward_guardians_revive_dead(gc, live_tc_dead_obj_list);
int some_were_revived = 1;
while(some_were_revived){
collect_loop(gc);
some_were_revived =
forward_guardians_process_tconcs(gc, &cache,
dead_tc_dead_obj_list, live_tc_dead_obj_list,
dead_tc_live_obj_list, live_tc_live_obj_list);
}
}
/* dead_tc_dead_obj_list and dead_tc_live_obj_list must go away */
int gen;
for(gen=0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src,* dst;
src = dead_tc_dead_obj_list[gen];
while(src){
ik_ptr_page* next = src->next;
src->next = cache;
cache = src;
src = next;
}
src = dead_tc_live_obj_list[gen];
while(src){
ik_ptr_page* next = src->next;
src->next = cache;
cache = src;
src = next;
}
/* make all pairs in live_tc_dead_obj live */
src = live_tc_dead_obj_list[gen];
pcb->guardians_dropped[gen] = src;
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
src->ptr[i] =
add_object(gc, src->ptr[i], "guardian3");
}
src = src->next;
}
/* make all pairs in live_tc_live_obj live and
add them to next gen */
src = live_tc_live_obj_list[gen];
dst = pcb->guardians[next_gen(gen)];
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
dst = move_guardian(add_object(gc, src->ptr[i], "g4"), dst,
&cache);
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}
ik_ptr_page* next = src->next;
src->next = cache;
cache = src;
src = next;
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}
pcb->guardians[next_gen(gen)] = dst;
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}
collect_loop(gc);
while(cache){
ik_ptr_page* next = cache->next;
ik_munmap(cache, sizeof(ik_ptr_page));
cache = next;
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}
}
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static void
empty_dropped_guardians(gc_t* gc){
ikpcb* pcb = gc->pcb;
int gen;
for(gen = 0; gen<=gc->collect_gen; gen++){
ik_ptr_page* src = pcb->guardians_dropped[gen];
while(src){
int i;
int n = src->count;
for(i=0; i<n; i++){
ikp a = src->ptr[i];
ikp tc = ref(a, off_car);
ikp obj = ref(a, off_cdr);
assert(tagof(tc) == pair_tag);
ikp d = ref(tc, off_cdr);
assert(tagof(d) == pair_tag);
ref(d, off_car) = obj;
ref(d, off_cdr) = a;
ref(a, off_car) = false_object;
ref(a, off_cdr) = false_object;
ref(tc, off_cdr) = a;
pcb->dirty_vector[page_index(tc)] = -1;
//pcb->dirty_vector[page_index(d)] = -1;
{
int dgen = pcb->segment_vector[page_index(d)] & gen_mask;
if( (dgen > (pcb->segment_vector[page_index(obj)] & gen_mask))
||
(dgen > (pcb->segment_vector[page_index(a)] & gen_mask))){
pcb->dirty_vector[page_index(d)] = -1;
}
}
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}
ik_ptr_page* next = src->next;
ik_munmap(src, sizeof(ik_ptr_page));
src = next;
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}
pcb->guardians_dropped[gen] = 0;
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}
}
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#define disp_frame_offset -13
#define disp_multivalue_rp -9
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#define CODE_EXTENSION_SIZE (pagesize)
static int alloc_code_count = 0;
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static ikp
add_code_entry(gc_t* gc, ikp entry){
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ikp x = entry - disp_code_data;
if(ref(x,0) == forward_ptr){
return ref(x,wordsize) + off_code_data;
}
int idx = page_index(x);
unsigned int t = gc->segment_vector[idx];
int gen = t & gen_mask;
if(gen > gc->collect_gen){
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return entry;
}
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int code_size = unfix(ref(x, disp_code_code_size));
ikp reloc_vec = ref(x, disp_code_reloc_vector);
ikp freevars = ref(x, disp_code_freevars);
ikp annotation = ref(x, disp_code_annotation);
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int required_mem = align(disp_code_data + code_size);
if(required_mem >= pagesize){
int new_tag = next_gen_tag[gen];
int idx = page_index(x);
gc->segment_vector[idx] = new_tag | code_mt;
int i;
for(i=pagesize, idx++; i<required_mem; i+=pagesize, idx++){
gc->segment_vector[idx] = new_tag | data_mt;
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}
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qupages_t* p = ik_malloc(sizeof(qupages_t));
p->p = x;
p->q = x+required_mem;
p->next = gc->queues[meta_code];
gc->queues[meta_code] = p;
return entry;
} else {
ikp y = gc_alloc_new_code(required_mem, gen, gc);
ref(y, 0) = code_tag;
ref(y, disp_code_code_size) = fix(code_size);
ref(y, disp_code_reloc_vector) = reloc_vec;
ref(y, disp_code_freevars) = freevars;
ref(y, disp_code_annotation) = annotation;
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memcpy(y+disp_code_data, x+disp_code_data, code_size);
ref(x, 0) = forward_ptr;
ref(x, wordsize) = y + vector_tag;
return y+disp_code_data;
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}
}
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#define DEBUG_STACK 0
static void collect_stack(gc_t* gc, ikp top, ikp end){
if(DEBUG_STACK){
fprintf(stderr, "collecting stack from 0x%08x .. 0x%08x\n",
(int) top, (int) end);
}
while(top < end){
if(DEBUG_STACK){
fprintf(stderr, "collecting frame at 0x%08x: ", (int) top);
}
ikp rp = ref(top, 0);
int rp_offset = unfix(ref(rp, disp_frame_offset));
if(DEBUG_STACK){
fprintf(stderr, "rp_offset=%d\n", rp_offset);
}
if(rp_offset <= 0){
fprintf(stderr, "invalid rp_offset %d\n", rp_offset);
exit(-1);
}
/* since the return point is alive, we need to find the code
* object containing it and mark it live as well. the rp is
* updated to reflect the new code object. */
int code_offset = rp_offset - disp_frame_offset;
ikp code_entry = rp - code_offset;
ikp new_code_entry = add_code_entry(gc, code_entry);
ikp new_rp = new_code_entry + code_offset;
ref(top, 0) = new_rp;
/* now for some livemask action.
* every return point has a live mark above it. the live mask
* is a sequence of bytes (every byte for 8 frame cells). the
* size of the live mask is determined by the size of the frame.
* this is how the call frame instruction sequence looks like:
*
* | ... |
* | code junk |
* +------------+
* | byte 0 | for fv0 .. fv7
* | byte 1 | for fv8 .. fv15
* | ... | ...
* +------------+
* | framesize |
* | word |
* +------------+
* | multivalue |
* | word |
* +------------+
* | frameoffst | the frame offset determined how far its
* | word | address is off from the start of the code
* +------------+
* | padding | the size of this part is fixed so that we
* | and call | can correlate the frame info (above) with rp
* +------------+
* | code junk | <---- rp
* | ... |
*
* WITH ONE EXCEPTION:
* if the framesize is 0, then the actual frame size is stored
* on the stack immediately below the return point.
* there is no live mask in this case, instead all values in the
* frame are live.
*/
int framesize = (int) ref(rp, disp_frame_size);
if(DEBUG_STACK){
fprintf(stderr, "fs=%d\n", framesize);
}
if(framesize < 0){
fprintf(stderr, "invalid frame size %d\n", framesize);
exit(-1);
}
else if(framesize == 0){
framesize = (int)ref(top, wordsize);
if(framesize <= 0){
fprintf(stderr, "invalid redirected framesize=%d\n", framesize);
exit(-1);
}
ikp base = top + framesize - wordsize;
while(base > top){
ikp new_obj = add_object(gc,ref(base,0), "frame");
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ref(base,0) = new_obj;
base -= wordsize;
}
} else {
int frame_cells = framesize >> fx_shift;
int bytes_in_mask = (frame_cells+7) >> 3;
unsigned char* mask = rp + disp_frame_size - bytes_in_mask;
ikp* fp = (ikp*)(top + framesize);
int i;
for(i=0; i<bytes_in_mask; i++, fp-=8){
unsigned char m = mask[i];
#if DEBUG_STACK
fprintf(stderr, "m[%d]=0x%x\n", i, m);
#endif
if(m & 0x01) { fp[-0] = add_object(gc, fp[-0], "frame0"); }
if(m & 0x02) { fp[-1] = add_object(gc, fp[-1], "frame1"); }
if(m & 0x04) { fp[-2] = add_object(gc, fp[-2], "frame2"); }
if(m & 0x08) { fp[-3] = add_object(gc, fp[-3], "frame3"); }
if(m & 0x10) { fp[-4] = add_object(gc, fp[-4], "frame4"); }
if(m & 0x20) { fp[-5] = add_object(gc, fp[-5], "frame5"); }
if(m & 0x40) { fp[-6] = add_object(gc, fp[-6], "frame6"); }
if(m & 0x80) { fp[-7] = add_object(gc, fp[-7], "frame7"); }
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}
}
top += framesize;
}
if(top != end){
fprintf(stderr, "frames did not match up 0x%08x .. 0x%08x\n",
(int) top, (int) end);
exit(-1);
}
if(DEBUG_STACK){
fprintf(stderr, "done with stack!\n");
}
}
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static void
add_list(gc_t* gc, unsigned int t, int gen, ikp x, ikp* loc){
int collect_gen = gc->collect_gen;
while(1){
ikp fst = ref(x, off_car);
ikp snd = ref(x, off_cdr);
ikp y;
if((t & type_mask) != weak_pairs_type){
y = gc_alloc_new_pair(gen, gc) + pair_tag;
} else {
y = gc_alloc_new_weak_pair(gen, gc) + pair_tag;
}
*loc = y;
ref(x,off_car) = forward_ptr;
ref(x,off_cdr) = y;
ref(y,off_car) = fst;
int stag = tagof(snd);
if(stag == pair_tag){
if(ref(snd, -pair_tag) == forward_ptr){
ref(y, off_cdr) = ref(snd, wordsize-pair_tag);
return;
}
else {
t = gc->segment_vector[page_index(snd)];
gen = t & gen_mask;
if(gen > collect_gen){
ref(y, off_cdr) = snd;
return;
} else {
x = snd;
loc = (ikp*)(y + off_cdr);
/* don't return */
}
}
}
else if( (stag == immediate_tag)
|| (stag == 0)
|| (stag == (1<<fx_shift))) {
ref(y,off_cdr) = snd;
return;
}
else if (ref(snd, -stag) == forward_ptr){
ref(y, off_cdr) = ref(snd, wordsize-stag);
return;
}
else {
ref(y, off_cdr) = add_object(gc, snd, "add_list");
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return;
}
}
}
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static ikp
#ifndef NDEBUG
add_object_proc(gc_t* gc, ikp x, char* caller)
#else
add_object_proc(gc_t* gc, ikp x)
#endif
{
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if(is_fixnum(x)){
return x;
}
assert(x != forward_ptr);
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int tag = tagof(x);
if(tag == immediate_tag){
return x;
}
ikp fst = ref(x, -tag);
if(fst == forward_ptr){
/* already moved */
return ref(x, wordsize-tag);
}
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unsigned int t = gc->segment_vector[page_index(x)];
int gen = t & gen_mask;
if(gen > gc->collect_gen){
return x;
}
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if(tag == pair_tag){
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ikp y;
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add_list(gc, t, gen, x, &y);
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return y;
}
#if 0
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else if(tag == symbol_tag){
//ikp y = gc_alloc_new_ptr(align(symbol_size),gen, gc) + symbol_tag;
ikp y = gc_alloc_new_symbol(gen, gc) + symbol_tag;
ref(y, off_symbol_string) = ref(x, off_symbol_string);
ref(y, off_symbol_ustring) = ref(x, off_symbol_ustring);
ref(y, off_symbol_value) = ref(x, off_symbol_value);
ref(y, off_symbol_plist) = ref(x, off_symbol_plist);
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ref(y, off_symbol_system_value) = ref(x, off_symbol_system_value);
ref(y, off_symbol_code) = ref(x, off_symbol_code);
ref(y, off_symbol_errcode) = ref(x, off_symbol_errcode);
ref(y, off_symbol_unused) = 0;
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ref(x, -symbol_tag) = forward_ptr;
ref(x, wordsize-symbol_tag) = y;
#if accounting
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symbol_count++;
#endif
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return y;
}
#endif
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else if(tag == closure_tag){
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int size = disp_closure_data+
(int) ref(fst, disp_code_freevars - disp_code_data);
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if(size > 1024){
fprintf(stderr, "large closure size=0x%08x\n", size);
}
int asize = align(size);
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ikp y = gc_alloc_new_ptr(asize, gen, gc) + closure_tag;
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ref(y, asize-closure_tag-wordsize) = 0;
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memcpy(y-closure_tag, x-closure_tag, size);
ref(y,-closure_tag) = add_code_entry(gc, ref(y,-closure_tag));
ref(x,-closure_tag) = forward_ptr;
ref(x,wordsize-closure_tag) = y;
#if accounting
closure_count++;
#endif
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return y;
}
else if(tag == vector_tag){
if(is_fixnum(fst)){
/* real vector */
//fprintf(stderr, "X=0x%08x, FST=0x%08x\n", (int)x, (int)fst);
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int size = (int)fst;
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assert(size >= 0);
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int memreq = align(size + disp_vector_data);
if(memreq >= pagesize){
if((t & large_object_mask) == large_object_tag){
enqueue_large_ptr(x-vector_tag, size+disp_vector_data, gen, gc);
return x;
} else {
ikp y = gc_alloc_new_large_ptr(size+disp_vector_data, gen, gc) +
vector_tag;
ref(y, disp_vector_length-vector_tag) = fst;
ref(y, memreq-vector_tag-wordsize) = 0;
memcpy(y+off_vector_data, x+off_vector_data, size);
ref(x,-vector_tag) = forward_ptr;
ref(x,wordsize-vector_tag) = y;
return y;
}
} else {
ikp y = gc_alloc_new_ptr(memreq, gen, gc) + vector_tag;
ref(y, disp_vector_length-vector_tag) = fst;
ref(y, memreq-vector_tag-wordsize) = 0;
memcpy(y+off_vector_data, x+off_vector_data, size);
ref(x,-vector_tag) = forward_ptr;
ref(x,wordsize-vector_tag) = y;
return y;
}
#if accounting
vector_count++;
#endif
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}
else if(fst == symbol_record_tag){
ikp y = gc_alloc_new_symbol_record(gen, gc) + record_tag;
ref(y, -record_tag) = symbol_record_tag;
ref(y, off_symbol_record_string) = ref(x, off_symbol_record_string);
ref(y, off_symbol_record_ustring) = ref(x, off_symbol_record_ustring);
ref(y, off_symbol_record_value) = ref(x, off_symbol_record_value);
ref(y, off_symbol_record_proc) = ref(x, off_symbol_record_proc);
ref(y, off_symbol_record_plist) = ref(x, off_symbol_record_plist);
ref(x, -record_tag) = forward_ptr;
ref(x, wordsize-record_tag) = y;
return y;
}
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else if(tagof(fst) == rtd_tag){
/* record */
int size = (int) ref(fst, off_rtd_length);
if(size > 4096){
fprintf(stderr, "large rec size=0x%08x\n", size);
}
int memreq = align(size + disp_record_data);
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ikp y = gc_alloc_new_ptr(memreq, gen, gc) + vector_tag;
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ref(y, memreq-vector_tag-wordsize) = 0;
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memcpy(y-vector_tag, x-vector_tag, size+wordsize);
ref(x,-vector_tag) = forward_ptr;
ref(x,wordsize-vector_tag) = y;
#if accounting
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record_count++;
#endif
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return y;
}
else if(fst == code_tag){
ikp entry = x + off_code_data;
ikp new_entry = add_code_entry(gc, entry);
return new_entry - off_code_data;
}
else if(fst == continuation_tag){
ikp top = ref(x, off_continuation_top);
int size = (int) ref(x, off_continuation_size);
#ifndef NDEBUG
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if(size > 4096){
fprintf(stderr, "large cont size=0x%08x\n", size);
}
#endif
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ikp next = ref(x, off_continuation_next);
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ikp y = gc_alloc_new_ptr(continuation_size, gen, gc) + vector_tag;
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ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = y;
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ikp new_top = gc_alloc_new_data(align(size), gen, gc);
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memcpy(new_top, top, size);
collect_stack(gc, new_top, new_top + size);
ref(y, -vector_tag) = continuation_tag;
ref(y, off_continuation_top) = new_top;
ref(y, off_continuation_size) = (ikp) size;
ref(y, off_continuation_next) = next;
#if accounting
continuation_count++;
#endif
return y;
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}
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else if(tagof(fst) == pair_tag){
/* tcbucket */
ikp y = gc_alloc_new_ptr(tcbucket_size, gen, gc) + vector_tag;
ref(y,off_tcbucket_tconc) = fst;
ikp key = ref(x, off_tcbucket_key);
ref(y,off_tcbucket_key) = key;
ref(y,off_tcbucket_val) = ref(x, off_tcbucket_val);
ref(y,off_tcbucket_next) = ref(x, off_tcbucket_next);
if((! is_fixnum(key)) && (tagof(key) != immediate_tag)){
unsigned int kt = gc->segment_vector[page_index(key)];
if((kt & gen_mask) <= gc->collect_gen){
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/* key will be moved */
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gc_tconc_push(gc, y);
}
}
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ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = y;
return y;
}
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else if((((int)fst) & port_mask) == port_tag){
ikp y = gc_alloc_new_ptr(port_size, gen, gc) + vector_tag;
ref(y, -vector_tag) = fst;
int i;
for(i=wordsize; i<port_size; i+=wordsize){
ref(y, i-vector_tag) = ref(x, i-vector_tag);
}
ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = y;
return y;
}
else if(fst == flonum_tag){
ikp new = gc_alloc_new_data(flonum_size, gen, gc) + vector_tag;
ref(new, -vector_tag) = flonum_tag;
flonum_data(new) = flonum_data(x);
ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = new;
return new;
}
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else if((((int)fst) & bignum_mask) == bignum_tag){
int len = ((unsigned int)fst) >> bignum_length_shift;
int memreq = align(disp_bignum_data + len*wordsize);
ikp new = gc_alloc_new_data(memreq, gen, gc) + vector_tag;
memcpy(new-vector_tag, x-vector_tag, memreq);
ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = new;
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return new;
}
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else if(fst == ratnum_tag){
ikp y = gc_alloc_new_data(ratnum_size, gen, gc) + vector_tag;
ikp num = ref(x, disp_ratnum_num-vector_tag);
ikp den = ref(x, disp_ratnum_den-vector_tag);
ref(x, -vector_tag) = forward_ptr;
ref(x, wordsize-vector_tag) = y;
ref(y, -vector_tag) = fst;
ref(y, disp_ratnum_num-vector_tag) = add_object(gc, num, "num");
ref(y, disp_ratnum_den-vector_tag) = add_object(gc, den, "den");
return y;
}
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else {
fprintf(stderr, "unhandled vector with fst=0x%08x\n", (int)fst);
assert(0);
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exit(-1);
}
}
else if(tag == string_tag){
if(is_fixnum(fst)){
int strlen = unfix(fst);
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int memreq = align(strlen*string_char_size + disp_string_data);
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ikp new_str = gc_alloc_new_data(memreq, gen, gc) + string_tag;
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ref(new_str, off_string_length) = fst;
memcpy(new_str+off_string_data,
x + off_string_data,
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strlen*string_char_size);
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ref(x, -string_tag) = forward_ptr;
ref(x, wordsize-string_tag) = new_str;
#if accounting
string_count++;
#endif
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return new_str;
}
else {
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fprintf(stderr, "unhandled string 0x%08x with fst=0x%08x\n",
(int)x, (int)fst);
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exit(-1);
}
}
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else if(tag == bytevector_tag){
int len = unfix(fst);
int memreq = align(len + disp_bytevector_data + 1);
ikp new_bv = gc_alloc_new_data(memreq, gen, gc) + bytevector_tag;
ref(new_bv, off_bytevector_length) = fst;
memcpy(new_bv+off_bytevector_data,
x + off_bytevector_data,
len + 1);
ref(x, -bytevector_tag) = forward_ptr;
ref(x, wordsize-bytevector_tag) = new_bv;
return new_bv;
}
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fprintf(stderr, "unhandled tag: %d\n", tag);
exit(-1);
}
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static void
relocate_new_code(ikp x, gc_t* gc){
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ikp relocvector = ref(x, disp_code_reloc_vector);
relocvector = add_object(gc, relocvector, "relocvec");
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ref(x, disp_code_reloc_vector) = relocvector;
ref(x, disp_code_annotation) =
add_object(gc, ref(x, disp_code_annotation), "annotation");
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int relocsize = (int)ref(relocvector, off_vector_length);
ikp p = relocvector + off_vector_data;
ikp q = p + relocsize;
ikp code = x + disp_code_data;
while(p < q){
int r = unfix(ref(p, 0));
int tag = r & 3;
int code_off = r >> 2;
if(tag == 0){
/* undisplaced pointer */
#ifndef NDEBUG
// fprintf(stderr, "r=0x%08x code_off=%d reloc_size=0x%08x\n",
// r, code_off, relocsize);
#endif
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ikp old_object = ref(p, wordsize);
ikp new_object = add_object(gc, old_object, "reloc1");
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ref(code, code_off) = new_object;
p += (2*wordsize);
}
else if(tag == 2){
/* displaced pointer */
int obj_off = unfix(ref(p, wordsize));
ikp old_object = ref(p, 2*wordsize);
ikp new_object = add_object(gc, old_object, "reloc2");
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ref(code, code_off) = new_object + obj_off;
p += (3 * wordsize);
}
else if(tag == 3){
/* displaced relative pointer */
int obj_off = unfix(ref(p, wordsize));
ikp obj = ref(p, 2*wordsize);
#ifndef NDEBUG
//fprintf(stderr, "obj=0x%08x, obj_off=0x%08x\n", (int)obj,
// obj_off);
#endif
obj = add_object(gc, obj, "reloc3");
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ikp displaced_object = obj + obj_off;
ikp next_word = code + code_off + wordsize;
ikp relative_distance = displaced_object - (int)next_word;
ref(next_word, -wordsize) = relative_distance;
p += (3*wordsize);
}
else if(tag == 1){
/* do nothing */
p += (2 * wordsize);
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}
else {
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fprintf(stderr, "invalid rtag %d in 0x%08x\n", tag, r);
exit(-1);
}
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}
}
static void
collect_loop(gc_t* gc){
int done;
do{
done = 1;
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{ /* scan the pending pairs pages */
qupages_t* qu = gc->queues[meta_pair];
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if(qu){
done = 0;
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gc->queues[meta_pair] = 0;
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do{
ikp p = qu->p;
ikp q = qu->q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "loop");
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p += (2*wordsize);
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}
qupages_t* next = qu->next;
ik_free(qu, sizeof(qupages_t));
qu = next;
} while(qu);
}
}
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{ /* scan the pending pointer pages */
qupages_t* qu = gc->queues[meta_ptrs];
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if(qu){
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done = 0;
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gc->queues[meta_ptrs] = 0;
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do{
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ikp p = qu->p;
ikp q = qu->q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "pending");
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p += wordsize;
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}
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qupages_t* next = qu->next;
ik_free(qu, sizeof(qupages_t));
qu = next;
} while(qu);
}
}
{ /* scan the pending symbol pages */
qupages_t* qu = gc->queues[meta_symbol];
if(qu){
done = 0;
gc->queues[meta_symbol] = 0;
do{
ikp p = qu->p;
ikp q = qu->q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "symbols");
p += wordsize;
}
qupages_t* next = qu->next;
ik_free(qu, sizeof(qupages_t));
qu = next;
} while(qu);
}
}
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{ /* scan the pending code objects */
qupages_t* codes = gc->queues[meta_code];
if(codes){
gc->queues[meta_code] = 0;
done = 0;
do{
ikp p = codes->p;
ikp q = codes->q;
while(p < q){
relocate_new_code(p, gc);
alloc_code_count--;
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p += align(disp_code_data + unfix(ref(p, disp_code_code_size)));
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}
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qupages_t* next = codes->next;
ik_free(codes, sizeof(qupages_t));
codes = next;
} while(codes);
}
}
{/* see if there are any remaining in the main ptr segment */
int i;
for(i=0; i<=gc->collect_gen; i++){
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meta_t* meta = &gc->meta[i][meta_pair];
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ikp p = meta->aq;
ikp q = meta->ap;
if(p < q){
done = 0;
do{
meta->aq = q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "rem");
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p += (2*wordsize);
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}
p = meta->aq;
q = meta->ap;
} while (p < q);
}
}
for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_symbol];
ikp p = meta->aq;
ikp q = meta->ap;
if(p < q){
done = 0;
do{
meta->aq = q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "sym");
p += wordsize;
}
p = meta->aq;
q = meta->ap;
} while (p < q);
}
}
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for(i=0; i<=gc->collect_gen; i++){
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meta_t* meta = &gc->meta[i][meta_ptrs];
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ikp p = meta->aq;
ikp q = meta->ap;
if(p < q){
done = 0;
do{
meta->aq = q;
while(p < q){
ref(p,0) = add_object(gc, ref(p,0), "rem2");
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p += wordsize;
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}
p = meta->aq;
q = meta->ap;
} while (p < q);
}
}
for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_code];
ikp p = meta->aq;
ikp q = meta->ap;
if(p < q){
done = 0;
do{
meta->aq = q;
do{
alloc_code_count--;
relocate_new_code(p, gc);
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p += align(disp_code_data + unfix(ref(p, disp_code_code_size)));
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} while (p < q);
p = meta->aq;
q = meta->ap;
} while (p < q);
}
}
}
/* phew */
} while (! done);
{
int i;
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for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_pair];
ikp p = meta->ap;
ikp q = meta->ep;
while(p < q){
ref(p, 0) = 0;
p += wordsize;
}
}
for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_symbol];
ikp p = meta->ap;
ikp q = meta->ep;
while(p < q){
ref(p, 0) = 0;
p += wordsize;
}
}
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for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_ptrs];
ikp p = meta->ap;
ikp q = meta->ep;
while(p < q){
ref(p, 0) = 0;
p += wordsize;
}
}
for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_weak];
ikp p = meta->ap;
ikp q = meta->ep;
while(p < q){
ref(p, 0) = 0;
p += wordsize;
}
}
for(i=0; i<=gc->collect_gen; i++){
meta_t* meta = &gc->meta[i][meta_code];
ikp p = meta->ap;
ikp q = meta->ep;
while(p < q){
ref(p, 0) = 0;
p += wordsize;
}
}
}
}
static void
fix_weak_pointers(gc_t* gc){
unsigned int* segment_vec = gc->segment_vector;
ikpcb* pcb = gc->pcb;
int lo_idx = page_index(pcb->memory_base);
int hi_idx = page_index(pcb->memory_end);
int i = lo_idx;
int collect_gen = gc->collect_gen;
while(i < hi_idx){
unsigned int t = segment_vec[i];
if((t & (type_mask|new_gen_mask)) ==
(weak_pairs_type|new_gen_tag)){
//int gen = t & gen_mask;
if (1) { //(gen > collect_gen){
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ikp p = (ikp)(i << pageshift);
ikp q = p + pagesize;
while(p < q){
ikp x = ref(p, 0);
if(! is_fixnum(x)){
int tag = tagof(x);
if(tag != immediate_tag){
ikp fst = ref(x, -tag);
if(fst == forward_ptr){
ref(p, 0) = ref(x, wordsize-tag);
} else {
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int x_gen = segment_vec[page_index(x)] & gen_mask;
if(x_gen <= collect_gen){
ref(p, 0) = bwp_object;
}
}
}
}
p += (2*wordsize);
}
}
}
i++;
}
}
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static unsigned int dirty_mask[generation_count] = {
0x88888888,
0xCCCCCCCC,
0xEEEEEEEE,
0xFFFFFFFF,
0x00000000
};
static unsigned int cleanup_mask[generation_count] = {
0x00000000,
0x88888888,
0xCCCCCCCC,
0xEEEEEEEE,
0xFFFFFFFF
};
static void
scan_dirty_pointers_page(gc_t* gc, int page_idx, int mask){
unsigned int* segment_vec = gc->segment_vector;
unsigned int* dirty_vec = gc->pcb->dirty_vector;
unsigned int t = segment_vec[page_idx];
unsigned int d = dirty_vec[page_idx];
unsigned int masked_d = d & mask;
ikp p = (ikp)(page_idx << pageshift);
int j;
unsigned int new_d = 0;
for(j=0; j<cards_per_page; j++){
if(masked_d & (0xF << (j*meta_dirty_shift))){
/* dirty card */
ikp q = p + cardsize;
unsigned int card_d = 0;
while(p < q){
ikp x = ref(p, 0);
if(is_fixnum(x) || (tagof(x) == immediate_tag)){
/* do nothing */
} else {
ikp y = add_object(gc, x, "nothing");
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segment_vec = gc->segment_vector;
ref(p, 0) = y;
card_d = card_d | segment_vec[page_index(y)];
}
p += wordsize;
}
card_d = (card_d & meta_dirty_mask) >> meta_dirty_shift;
new_d = new_d | (card_d<<(j*meta_dirty_shift));
} else {
p += cardsize;
new_d = new_d | (d & (0xF << (j*meta_dirty_shift)));
}
}
dirty_vec = gc->pcb->dirty_vector;
new_d = new_d & cleanup_mask[t & gen_mask];
dirty_vec[page_idx] = new_d;
}
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static void
scan_dirty_code_page(gc_t* gc, int page_idx, unsigned int mask){
ikp p = (ikp)(page_idx << pageshift);
ikp start = p;
ikp q = p + pagesize;
unsigned int* segment_vec = gc->segment_vector;
unsigned int* dirty_vec = gc->pcb->dirty_vector;
//unsigned int d = dirty_vec[page_idx];
unsigned int t = segment_vec[page_idx];
//unsigned int masked_d = d & mask;
unsigned int new_d = 0;
while(p < q){
if(ref(p, 0) != code_tag){
p = q;
}
else {
int j = ((int)p - (int)start) / cardsize;
int code_size = unfix(ref(p, disp_code_code_size));
relocate_new_code(p, gc);
segment_vec = gc->segment_vector;
ikp rvec = ref(p, disp_code_reloc_vector);
int len = (int)ref(rvec, off_vector_length);
assert(len >= 0);
int i;
unsigned int code_d = segment_vec[page_index(rvec)];
for(i=0; i<len; i+=wordsize){
ikp r = ref(rvec, i+off_vector_data);
if(is_fixnum(r) || (tagof(r) == immediate_tag)){
/* do nothing */
} else {
r = add_object(gc, r, "nothing2");
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segment_vec = gc->segment_vector;
code_d = code_d | segment_vec[page_index(r)];
}
}
new_d = new_d | (code_d<<(j*meta_dirty_shift));
p += align(code_size + disp_code_data);
}
}
dirty_vec = gc->pcb->dirty_vector;
new_d = new_d & cleanup_mask[t & gen_mask];
dirty_vec[page_idx] = new_d;
}
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static void
scan_dirty_pages(gc_t* gc){
ikpcb* pcb = gc->pcb;
int lo_idx = page_index(pcb->memory_base);
int hi_idx = page_index(pcb->memory_end);
unsigned int* dirty_vec = pcb->dirty_vector;
unsigned int* segment_vec = pcb->segment_vector;
int collect_gen = gc->collect_gen;
unsigned int mask = dirty_mask[collect_gen];
int i = lo_idx;
while(i < hi_idx){
unsigned int d = dirty_vec[i];
if(d & mask){
unsigned int t = segment_vec[i];
if((t & gen_mask) > collect_gen){
int type = t & type_mask;
if(type == pointers_type){
scan_dirty_pointers_page(gc, i, mask);
dirty_vec = pcb->dirty_vector;
segment_vec = pcb->segment_vector;
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}
else if(type == symbols_type){
scan_dirty_pointers_page(gc, i, mask);
dirty_vec = pcb->dirty_vector;
segment_vec = pcb->segment_vector;
}
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else if (type == weak_pairs_type){
scan_dirty_pointers_page(gc, i, mask);
dirty_vec = pcb->dirty_vector;
segment_vec = pcb->segment_vector;
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}
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else if (type == code_type){
if((t & gen_mask) > collect_gen){
scan_dirty_code_page(gc, i, mask);
dirty_vec = pcb->dirty_vector;
segment_vec = pcb->segment_vector;
}
}
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else if (t & scannable_mask) {
fprintf(stderr, "BUG: unhandled scan of type 0x%08x\n", t);
exit(-1);
}
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}
}
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i++;
}
}
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static void
deallocate_unused_pages(gc_t* gc){
ikpcb* pcb = gc->pcb;
int collect_gen = gc->collect_gen;
unsigned int* segment_vec = pcb->segment_vector;
unsigned char* memory_base = pcb->memory_base;
unsigned char* memory_end = pcb->memory_end;
int lo_idx = page_index(memory_base);
int hi_idx = page_index(memory_end);
int i = lo_idx;
while(i < hi_idx){
unsigned int t = segment_vec[i];
if(t & dealloc_mask){
int gen = t & old_gen_mask;
if(gen <= collect_gen){
/* we're interested */
if(t & new_gen_mask){
/* do nothing yet */
} else {
ik_munmap_from_segment((unsigned char*)(i<<pageshift),pagesize,pcb);
}
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}
}
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i++;
}
}
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static void
fix_new_pages(gc_t* gc){
ikpcb* pcb = gc->pcb;
unsigned int* segment_vec = pcb->segment_vector;
unsigned int* dirty_vec = pcb->dirty_vector;
unsigned char* memory_base = pcb->memory_base;
unsigned char* memory_end = pcb->memory_end;
int lo_idx = page_index(memory_base);
int hi_idx = page_index(memory_end);
int i = lo_idx;
while(i < hi_idx){
unsigned int t = segment_vec[i];
// if((t & new_gen_mask) ||
// ((t & type_mask) == weak_pairs_type)){
if(t & new_gen_mask){
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segment_vec[i] = t & ~new_gen_mask;
int page_gen = t & old_gen_mask;
if(((t & type_mask) == pointers_type) ||
((t & type_mask) == symbols_type) ||
((t & type_mask) == weak_pairs_type) ){
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ikp p = (ikp)(i << pageshift);
unsigned int d = 0;
int j;
for(j=0; j<cards_per_page; j++){
ikp q = p + cardsize;
unsigned int card_d = 0;
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while(p < q){
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ikp x = ref(p, 0);
if(is_fixnum(x) || (tagof(x) == immediate_tag)){
/* nothing */
} else {
card_d = card_d | segment_vec[page_index(x)];
}
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p += wordsize;
}
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card_d = (card_d & meta_dirty_mask) >> meta_dirty_shift;
d = d | (card_d<<(j*meta_dirty_shift));
}
dirty_vec[i] = d & cleanup_mask[page_gen];
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}
else if((t & type_mask) == code_type){
/* FIXME: scan codes */
ikp page_base = (ikp)(i << pageshift);
ikp p = page_base;
ikp q = p + pagesize;
int err = mprotect(page_base, pagesize, PROT_READ|PROT_WRITE|PROT_EXEC);
if(err){
fprintf(stderr, "cannot protect code page: %s\n", strerror(errno));
exit(-1);
}
unsigned int d = 0;
while(p < q){
if(ref(p, 0) != code_tag){
p = q;
}
else {
ikp rvec = ref(p, disp_code_reloc_vector);
int size = (int)ref(rvec, off_vector_length);
ikp vp = rvec + off_vector_data;
ikp vq = vp + size;
unsigned int code_d = segment_vec[page_index(rvec)];
while(vp < vq){
ikp x = ref(vp, 0);
if(is_fixnum(x) || (tagof(x) == immediate_tag)){
/* do nothing */
} else {
code_d = code_d | segment_vec[page_index(x)];
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}
vp += wordsize;
}
code_d = (code_d & meta_dirty_mask) >> meta_dirty_shift;
int j = ((int)p - (int)page_base)/cardsize;
assert(j < cards_per_page);
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d = d | (code_d<<(j*meta_dirty_shift));
p += align(disp_code_data + unfix(ref(p, disp_code_code_size)));
}
}
#ifndef NDEBUG
fprintf(stderr, " %p = 0x%08x & 0x%08x = 0x%08x\n",
page_base, d, cleanup_mask[page_gen], d &
cleanup_mask[page_gen]);
#endif
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dirty_vec[i] = d & cleanup_mask[page_gen];
}
else {
if(t & scannable_mask){
fprintf(stderr, "unscanned 0x%08x\n", t);
exit(-1);
}
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}
}
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i++;
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}
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}
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static void
add_one_tconc(ikpcb* pcb, ikp p){
ikp tcbucket = ref(p,0);
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ikp tc = ref(tcbucket, off_tcbucket_tconc);
assert(tagof(tc) == pair_tag);
ikp d = ref(tc, off_cdr);
assert(tagof(d) == pair_tag);
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ikp new_pair = p + pair_tag;
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ref(d, off_car) = tcbucket;
ref(d, off_cdr) = new_pair;
ref(new_pair, off_car) = false_object;
ref(new_pair, off_cdr) = false_object;
ref(tc, off_cdr) = new_pair;
ref(tcbucket, -vector_tag) = (ikp)(tcbucket_size - wordsize);
pcb->dirty_vector[page_index(tc)] = -1;
pcb->dirty_vector[page_index(d)] = -1;
}
static void
gc_add_tconcs(gc_t* gc){
if(gc->tconc_base == 0){
return;
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}
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ikpcb* pcb = gc->pcb;
{
ikp p = gc->tconc_base;
ikp q = gc->tconc_ap;
while(p < q){
add_one_tconc(pcb, p);
p += 2*wordsize;
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}
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}
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ikpages* qu = gc->tconc_queue;
while(qu){
ikp p = qu->base;
ikp q = p + qu->size;
while(p < q){
add_one_tconc(pcb, p);
p += 2*wordsize;
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}
ikpages* next = qu->next;
ik_free(qu, sizeof(ikpages));
qu = next;
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}
}