picrin/extlib/benz/gc.c

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/**
* See Copyright Notice in picrin.h
*/
#include "picrin.h"
union header {
struct {
union header *ptr;
size_t size;
} s;
};
struct heap_page {
union header *basep, *endp;
struct heap_page *next;
};
struct pic_object {
union {
struct pic_basic basic;
struct pic_symbol sym;
struct pic_string str;
struct pic_blob blob;
struct pic_pair pair;
struct pic_vector vec;
struct pic_dict dict;
struct pic_reg reg;
struct pic_data data;
struct pic_record rec;
struct pic_id id;
struct pic_env env;
struct pic_proc proc;
struct pic_context cxt;
struct pic_irep irep;
struct pic_port port;
struct pic_error err;
struct pic_lib lib;
struct pic_box box;
struct pic_checkpoint cp;
} u;
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};
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struct pic_heap {
union header base, *freep;
struct heap_page *pages;
struct pic_reg *regs; /* weak map chain */
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};
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struct pic_heap *
pic_heap_open(pic_state *pic)
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{
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struct pic_heap *heap;
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heap = pic_malloc(pic, sizeof(struct pic_heap));
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heap->base.s.ptr = &heap->base;
heap->base.s.size = 0; /* not 1, since it must never be used for allocation */
heap->freep = &heap->base;
heap->pages = NULL;
heap->regs = NULL;
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return heap;
}
void
pic_heap_close(pic_state *pic, struct pic_heap *heap)
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{
struct heap_page *page;
while (heap->pages) {
page = heap->pages;
heap->pages = heap->pages->next;
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pic_free(pic, page->basep);
pic_free(pic, page);
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}
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pic_free(pic, heap);
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}
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#if PIC_ENABLE_LIBC
void *
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pic_default_allocf(void PIC_UNUSED(*userdata), void *ptr, size_t size)
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{
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if (size != 0) {
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return realloc(ptr, size);
}
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free(ptr);
return NULL;
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}
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#endif
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void *
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pic_malloc(pic_state *pic, size_t size)
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{
void *ptr;
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ptr = pic->allocf(pic->userdata, NULL, size);
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if (ptr == NULL && size > 0) {
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pic_panic(pic, "memory exhausted");
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}
return ptr;
}
void *
pic_realloc(pic_state *pic, void *ptr, size_t size)
{
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ptr = pic->allocf(pic->userdata, ptr, size);
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if (ptr == NULL && size > 0) {
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pic_panic(pic, "memory exhausted");
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}
return ptr;
}
void *
pic_calloc(pic_state *pic, size_t count, size_t size)
{
void *ptr;
size *= count;
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ptr = pic->allocf(pic->userdata, NULL, size);
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if (ptr == NULL && size > 0) {
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pic_panic(pic, "memory exhausted");
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}
memset(ptr, 0, size);
return ptr;
}
void
pic_free(pic_state *pic, void *ptr)
{
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pic->allocf(pic->userdata, ptr, 0);
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}
static void
gc_protect(pic_state *pic, struct pic_object *obj)
{
if (pic->arena_idx >= pic->arena_size) {
pic->arena_size = pic->arena_size * 2 + 1;
pic->arena = pic_realloc(pic, pic->arena, sizeof(struct pic_object *) * pic->arena_size);
}
pic->arena[pic->arena_idx++] = obj;
}
pic_value
pic_gc_protect(pic_state *pic, pic_value v)
{
if (! pic_obj_p(v))
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return v;
gc_protect(pic, pic_obj_ptr(v));
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return v;
}
size_t
pic_gc_arena_preserve(pic_state *pic)
{
return pic->arena_idx;
}
void
pic_gc_arena_restore(pic_state *pic, size_t state)
{
pic->arena_idx = state;
}
static void *
heap_alloc(pic_state *pic, size_t size)
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{
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union header *p, *prevp;
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size_t nunits;
assert(size > 0);
nunits = (size + sizeof(union header) - 1) / sizeof(union header) + 1;
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prevp = pic->heap->freep;
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for (p = prevp->s.ptr; ; prevp = p, p = p->s.ptr) {
if (p->s.size >= nunits)
break;
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if (p == pic->heap->freep) {
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return NULL;
}
}
if (p->s.size == nunits) {
prevp->s.ptr = p->s.ptr;
}
else {
p->s.size -= nunits;
p += p->s.size;
p->s.size = nunits;
}
pic->heap->freep = prevp;
return (void *)(p + 1);
}
static void
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heap_free(pic_state *pic, void *ap)
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{
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union header *bp, *p;
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assert(ap != NULL);
bp = (union header *)ap - 1;
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for (p = pic->heap->freep; ! (bp > p && bp < p->s.ptr); p = p->s.ptr) {
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if (p >= p->s.ptr && (bp > p || bp < p->s.ptr)) {
break;
}
}
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if (bp + bp->s.size == p->s.ptr && p->s.ptr->s.size > 0) { /* don't melt base header */
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bp->s.size += p->s.ptr->s.size;
bp->s.ptr = p->s.ptr->s.ptr;
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} else {
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bp->s.ptr = p->s.ptr;
}
if (p + p->s.size == bp && bp->s.size > 0) { /* don't melt base header */
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p->s.size += bp->s.size;
p->s.ptr = bp->s.ptr;
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} else {
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p->s.ptr = bp;
}
pic->heap->freep = p;
}
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static void
heap_morecore(pic_state *pic)
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{
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union header *bp, *np;
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struct heap_page *page;
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size_t nunits;
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nunits = PIC_HEAP_PAGE_SIZE / sizeof(union header);
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assert(nunits >= 2);
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bp = pic_malloc(pic, PIC_HEAP_PAGE_SIZE);
bp->s.size = 0; /* bp is never used for allocation */
heap_free(pic, bp + 1);
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np = bp + 1;
np->s.size = nunits - 1;
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heap_free(pic, np + 1);
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page = pic_malloc(pic, sizeof(struct heap_page));
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page->basep = bp;
page->endp = bp + nunits;
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page->next = pic->heap->pages;
pic->heap->pages = page;
}
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/* MARK */
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static void gc_mark_object(pic_state *, struct pic_object *);
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static void
gc_mark(pic_state *pic, pic_value v)
{
if (! pic_obj_p(v))
return;
gc_mark_object(pic, pic_obj_ptr(v));
}
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static void
gc_mark_object(pic_state *pic, struct pic_object *obj)
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{
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loop:
if (obj->u.basic.gc_mark == PIC_GC_MARK)
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return;
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obj->u.basic.gc_mark = PIC_GC_MARK;
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#define LOOP(o) obj = (struct pic_object *)(o); goto loop
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switch (obj->u.basic.tt) {
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case PIC_TT_PAIR: {
gc_mark(pic, obj->u.pair.car);
if (pic_obj_p(obj->u.pair.cdr)) {
LOOP(pic_obj_ptr(obj->u.pair.cdr));
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}
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break;
}
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case PIC_TT_CXT: {
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int i;
for (i = 0; i < obj->u.cxt.regc; ++i) {
gc_mark(pic, obj->u.cxt.regs[i]);
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}
if (obj->u.cxt.up) {
LOOP(obj->u.cxt.up);
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}
break;
}
case PIC_TT_PROC: {
if (pic_proc_irep_p(&obj->u.proc)) {
gc_mark_object(pic, (struct pic_object *)obj->u.proc.u.i.irep);
if (obj->u.proc.u.i.cxt) {
LOOP(obj->u.proc.u.i.cxt);
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}
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} else {
if (obj->u.proc.u.f.env) {
LOOP(obj->u.proc.u.f.env);
}
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}
break;
}
case PIC_TT_PORT: {
break;
}
case PIC_TT_ERROR: {
gc_mark_object(pic, (struct pic_object *)obj->u.err.type);
gc_mark_object(pic, (struct pic_object *)obj->u.err.msg);
gc_mark(pic, obj->u.err.irrs);
LOOP(obj->u.err.stack);
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break;
}
case PIC_TT_STRING: {
break;
}
case PIC_TT_VECTOR: {
size_t i;
for (i = 0; i < obj->u.vec.len; ++i) {
gc_mark(pic, obj->u.vec.data[i]);
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}
break;
}
case PIC_TT_BLOB: {
break;
}
case PIC_TT_ID: {
gc_mark(pic, obj->u.id.var);
LOOP(obj->u.id.env);
break;
}
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case PIC_TT_ENV: {
khash_t(env) *h = &obj->u.env.map;
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khiter_t it;
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for (it = kh_begin(h); it != kh_end(h); ++it) {
if (kh_exist(h, it)) {
gc_mark_object(pic, kh_key(h, it));
gc_mark_object(pic, (struct pic_object *)kh_val(h, it));
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}
}
if (obj->u.env.up) {
LOOP(obj->u.env.up);
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}
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break;
}
case PIC_TT_LIB: {
gc_mark(pic, obj->u.lib.name);
gc_mark_object(pic, (struct pic_object *)obj->u.lib.env);
LOOP(obj->u.lib.exports);
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break;
}
case PIC_TT_IREP: {
size_t i;
for (i = 0; i < obj->u.irep.ilen; ++i) {
gc_mark_object(pic, (struct pic_object *)obj->u.irep.irep[i]);
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}
for (i = 0; i < obj->u.irep.plen; ++i) {
gc_mark(pic, obj->u.irep.pool[i]);
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}
break;
}
case PIC_TT_DATA: {
if (obj->u.data.type->mark) {
obj->u.data.type->mark(pic, obj->u.data.data, gc_mark);
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}
LOOP(obj->u.data.storage);
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break;
}
case PIC_TT_DICT: {
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pic_sym *sym;
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khiter_t it;
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pic_dict_for_each (sym, &obj->u.dict, it) {
gc_mark_object(pic, (struct pic_object *)sym);
gc_mark(pic, pic_dict_ref(pic, &obj->u.dict, sym));
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}
break;
}
case PIC_TT_RECORD: {
LOOP(obj->u.rec.data);
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break;
}
case PIC_TT_SYMBOL: {
break;
}
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case PIC_TT_REG: {
struct pic_reg *reg = (struct pic_reg *)obj;
reg->prev = pic->heap->regs;
pic->heap->regs = reg;
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break;
}
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case PIC_TT_BOX: {
if (pic_obj_p(obj->u.box.value)) {
LOOP(pic_obj_ptr(obj->u.box.value));
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}
break;
}
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case PIC_TT_CP: {
if (obj->u.cp.prev) {
gc_mark_object(pic, (struct pic_object *)obj->u.cp.prev);
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}
if (obj->u.cp.in) {
gc_mark_object(pic, (struct pic_object *)obj->u.cp.in);
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}
if (obj->u.cp.out) {
LOOP((struct pic_object *)obj->u.cp.out);
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}
break;
}
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case PIC_TT_NIL:
case PIC_TT_BOOL:
case PIC_TT_FLOAT:
case PIC_TT_INT:
case PIC_TT_CHAR:
case PIC_TT_EOF:
case PIC_TT_UNDEF:
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case PIC_TT_INVALID:
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pic_panic(pic, "logic flaw");
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}
}
#define M(x) gc_mark_object(pic, (struct pic_object *)pic->x)
#define P(x) gc_mark(pic, pic->x)
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static void
gc_mark_phase(pic_state *pic)
{
pic_value *stack;
pic_callinfo *ci;
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struct pic_proc **xhandler;
size_t j;
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assert(pic->heap->regs == NULL);
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/* checkpoint */
if (pic->cp) {
gc_mark_object(pic, (struct pic_object *)pic->cp);
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}
/* stack */
for (stack = pic->stbase; stack != pic->sp; ++stack) {
gc_mark(pic, *stack);
}
/* callinfo */
for (ci = pic->ci; ci != pic->cibase; --ci) {
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if (ci->cxt) {
gc_mark_object(pic, (struct pic_object *)ci->cxt);
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}
}
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/* exception handlers */
for (xhandler = pic->xpbase; xhandler != pic->xp; ++xhandler) {
gc_mark_object(pic, (struct pic_object *)*xhandler);
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}
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/* arena */
for (j = 0; j < pic->arena_idx; ++j) {
gc_mark_object(pic, (struct pic_object *)pic->arena[j]);
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}
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/* mark reserved symbols */
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M(sQUOTE); M(sQUASIQUOTE); M(sUNQUOTE); M(sUNQUOTE_SPLICING);
M(sSYNTAX_QUOTE); M(sSYNTAX_QUASIQUOTE); M(sSYNTAX_UNQUOTE); M(sSYNTAX_UNQUOTE_SPLICING);
M(sDEFINE_LIBRARY); M(sIMPORT); M(sEXPORT); M(sCOND_EXPAND);
M(sCALL); M(sGREF); M(sLREF); M(sCREF);
M(uDEFINE); M(uLAMBDA); M(uIF); M(uBEGIN); M(uQUOTE); M(uSETBANG); M(uDEFINE_MACRO);
M(uDEFINE_LIBRARY); M(uIMPORT); M(uEXPORT); M(uCOND_EXPAND);
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M(uCONS); M(uCAR); M(uCDR); M(uNILP); M(uSYMBOLP); M(uPAIRP);
M(uADD); M(uSUB); M(uMUL); M(uDIV); M(uEQ); M(uLT); M(uLE); M(uGT); M(uGE); M(uNOT);
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/* mark system procedures */
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P(pCONS); P(pCAR); P(pCDR); P(pNILP); P(pSYMBOLP); P(pPAIRP); P(pNOT);
P(pADD); P(pSUB); P(pMUL); P(pDIV); P(pEQ); P(pLT); P(pLE); P(pGT); P(pGE);
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M(cCONS); M(cCAR); M(cCDR); M(cNILP); M(cSYMBOLP); M(cPAIRP); M(cNOT);
M(cADD); M(cSUB); M(cMUL); M(cDIV); M(cEQ); M(cLT); M(cLE); M(cGT); M(cGE);
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/* global variables */
if (pic->globals) {
gc_mark_object(pic, (struct pic_object *)pic->globals);
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}
/* macro objects */
if (pic->macros) {
gc_mark_object(pic, (struct pic_object *)pic->macros);
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}
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/* attribute table */
if (pic->attrs) {
gc_mark_object(pic, (struct pic_object *)pic->attrs);
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}
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/* error object */
gc_mark(pic, pic->err);
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/* features */
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gc_mark(pic, pic->features);
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/* library table */
gc_mark(pic, pic->libs);
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/* parameter table */
gc_mark(pic, pic->ptable);
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/* registries */
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do {
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struct pic_object *key;
pic_value val;
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khiter_t it;
khash_t(reg) *h;
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struct pic_reg *reg;
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j = 0;
reg = pic->heap->regs;
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while (reg != NULL) {
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h = &reg->hash;
for (it = kh_begin(h); it != kh_end(h); ++it) {
if (! kh_exist(h, it))
continue;
key = kh_key(h, it);
val = kh_val(h, it);
if (key->u.basic.gc_mark == PIC_GC_MARK) {
if (pic_obj_p(val) && pic_obj_ptr(val)->u.basic.gc_mark == PIC_GC_UNMARK) {
gc_mark(pic, val);
++j;
}
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}
}
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reg = reg->prev;
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}
} while (j > 0);
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}
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/* SWEEP */
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static void
gc_finalize_object(pic_state *pic, struct pic_object *obj)
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{
switch (obj->u.basic.tt) {
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case PIC_TT_VECTOR: {
pic_free(pic, obj->u.vec.data);
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break;
}
case PIC_TT_BLOB: {
pic_free(pic, obj->u.blob.data);
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break;
}
case PIC_TT_STRING: {
pic_rope_decref(pic, obj->u.str.rope);
break;
}
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case PIC_TT_ENV: {
kh_destroy(env, &obj->u.env.map);
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break;
}
case PIC_TT_IREP: {
pic_free(pic, obj->u.irep.code);
pic_free(pic, obj->u.irep.irep);
pic_free(pic, obj->u.irep.pool);
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break;
}
case PIC_TT_DATA: {
if (obj->u.data.type->dtor) {
obj->u.data.type->dtor(pic, obj->u.data.data);
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}
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break;
}
case PIC_TT_DICT: {
kh_destroy(dict, &obj->u.dict.hash);
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break;
}
case PIC_TT_SYMBOL: {
pic_free(pic, (void *)obj->u.sym.cstr);
break;
}
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case PIC_TT_REG: {
kh_destroy(reg, &obj->u.reg.hash);
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break;
}
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case PIC_TT_PAIR:
case PIC_TT_CXT:
case PIC_TT_PROC:
case PIC_TT_PORT:
case PIC_TT_ERROR:
case PIC_TT_ID:
case PIC_TT_LIB:
case PIC_TT_RECORD:
case PIC_TT_CP:
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case PIC_TT_BOX:
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break;
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case PIC_TT_NIL:
case PIC_TT_BOOL:
case PIC_TT_FLOAT:
case PIC_TT_INT:
case PIC_TT_CHAR:
case PIC_TT_EOF:
case PIC_TT_UNDEF:
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case PIC_TT_INVALID:
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pic_panic(pic, "logic flaw");
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}
}
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static size_t
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gc_sweep_page(pic_state *pic, struct heap_page *page)
{
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union header *bp, *p, *head = NULL, *tail = NULL;
struct pic_object *obj;
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size_t alive = 0;
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for (bp = page->basep; ; bp = bp->s.ptr) {
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p = bp + (bp->s.size ? bp->s.size : 1); /* first bp's size is 0, so force advnce */
for (; p != bp->s.ptr; p += p->s.size) {
if (p < page->basep || page->endp <= p) {
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goto escape;
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}
obj = (struct pic_object *)(p + 1);
if (obj->u.basic.gc_mark == PIC_GC_MARK) {
obj->u.basic.gc_mark = PIC_GC_UNMARK;
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alive += p->s.size;
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} else {
if (head == NULL) {
head = p;
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}
if (tail != NULL) {
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tail->s.ptr = p;
}
tail = p;
tail->s.ptr = NULL; /* We can safely reuse ptr field of dead object */
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}
}
}
escape:
/* free! */
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while (head != NULL) {
p = head;
head = head->s.ptr;
gc_finalize_object(pic, (struct pic_object *)(p + 1));
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heap_free(pic, p + 1);
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}
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return alive;
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}
static void
gc_sweep_phase(pic_state *pic)
{
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struct heap_page *page;
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khiter_t it;
khash_t(reg) *h;
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khash_t(s) *s = &pic->syms;
pic_sym *sym;
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struct pic_object *obj;
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size_t total = 0, inuse = 0;
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/* registries */
while (pic->heap->regs != NULL) {
h = &pic->heap->regs->hash;
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for (it = kh_begin(h); it != kh_end(h); ++it) {
if (! kh_exist(h, it))
continue;
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obj = kh_key(h, it);
if (obj->u.basic.gc_mark == PIC_GC_UNMARK) {
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kh_del(reg, h, it);
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}
}
pic->heap->regs = pic->heap->regs->prev;
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}
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/* symbol table */
for (it = kh_begin(s); it != kh_end(s); ++it) {
if (! kh_exist(s, it))
continue;
sym = kh_val(s, it);
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if (sym->gc_mark == PIC_GC_UNMARK) {
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kh_del(s, s, it);
}
}
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page = pic->heap->pages;
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while (page) {
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inuse += gc_sweep_page(pic, page);
total += page->endp - page->basep;
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page = page->next;
}
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if (PIC_PAGE_REQUEST_THRESHOLD(total) <= inuse) {
heap_morecore(pic);
}
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}
void
pic_gc_run(pic_state *pic)
{
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if (! pic->gc_enable) {
return;
}
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gc_mark_phase(pic);
gc_sweep_phase(pic);
}
struct pic_object *
pic_obj_alloc_unsafe(pic_state *pic, size_t size, enum pic_tt tt)
{
struct pic_object *obj;
#if GC_STRESS
pic_gc_run(pic);
#endif
obj = (struct pic_object *)heap_alloc(pic, size);
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if (obj == NULL) {
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pic_gc_run(pic);
obj = (struct pic_object *)heap_alloc(pic, size);
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if (obj == NULL) {
heap_morecore(pic);
obj = (struct pic_object *)heap_alloc(pic, size);
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if (obj == NULL)
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pic_panic(pic, "GC memory exhausted");
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}
}
obj->u.basic.gc_mark = PIC_GC_UNMARK;
obj->u.basic.tt = tt;
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return obj;
}
struct pic_object *
pic_obj_alloc(pic_state *pic, size_t size, enum pic_tt tt)
{
struct pic_object *obj;
obj = pic_obj_alloc_unsafe(pic, size, tt);
gc_protect(pic, obj);
return obj;
}