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gbc.c
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gbc.c
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/*
* garbage collenction
*/
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#include <pthread.h>
#include <time.h>
#include "eisl.h"
#include "compat/nana_stubs.h"
#include "mem.h"
#include "except.h"
#include "fmt.h"
#define DBG_PRINTF(msg,arg) if(gbc_flag) printf(msg,arg)
/* mark&sweep garbage collection */
DEF_PREDICATE(EMPTY, EMP)
int gbc(void)
{
gbc_sequence();
return 0;
}
static inline void MARK_CELL(int addr)
{
heap[addr].flag = USE;
}
static inline bool USED_CELL(int addr)
{
return (heap[addr].flag == USE);
}
static inline void NOMARK_CELL(int addr)
{
heap[addr].flag = FRE;
}
void gbc_sequence(void)
{
int addr, i, j;
DBG_PRINTF("enter concurrent M&S-GC free=%d\n", fc[0]);
/* mark hash table */
for (i = 0; i < HASHTBSIZE; i++)
mark_cell(cell_hash_table[i]);
/* mark nil and t */
MARK_CELL(NIL);
MARK_CELL(T);
/* mark local environment */
for (j = 0; j <= mt_queue_num; j++)
mark_cell(ep[j]);
/* mark dynamic environment */
for (j = 0; j <= mt_queue_num; j++)
mark_cell(dp[j]);
/* mark stack */
for (j = 0; j <= mt_queue_num; j++) {
for (i = 0; i < sp[j]; i++)
mark_cell(stack[i][j]);
}
/* mark cell binded by argstack */
for (j = 0; j <= mt_queue_num; j++) {
for (i = 0; i < ap[j]; i++)
mark_cell(argstk[i][j]);
}
/* mark tagbody symbol */
mark_cell(tagbody_tag);
/* mark thunk for unwind-protect */
for (i = 0; i < unwind_pt; i++)
mark_cell(unwind_buf[i]);
/* mark error_handler */
mark_cell(error_handler);
/* mark stream */
mark_cell(standard_input);
mark_cell(standard_output);
mark_cell(standard_error);
mark_cell(input_stream);
mark_cell(output_stream);
mark_cell(error_stream);
/* mark shelter */
for (j = 0; j <= mt_queue_num; j++) {
for (i = 0; i < lp[j]; i++)
mark_cell(shelter[i][j]);
}
/* mark dynamic environment */
for (j = 0; j <= mt_queue_num; j++) {
for (i = 0; i <= dp[j]; i++)
mark_cell(dynamic[i][1][j]);
}
/* mark generic_list */
mark_cell(generic_list);
/* mard setf_list. generic functions related setf */
mark_cell(setf_list);
if (!thread_flag) {
addr = 0;
hp[0] = NIL;
fc[0] = 0;
while (addr < CELLSIZE) {
if (USED_CELL(addr))
NOMARK_CELL(addr);
else {
clr_cell(addr);
SET_CDR(addr, hp[0]);
hp[0] = addr;
fc[0]++;
}
addr++;
}
} else {
for (i = 0; i <= mt_queue_num; i++) {
hp[i] = NIL;
fc[i] = 0;
}
addr = 0;
i = 0;
while (addr < CELLSIZE) {
if (USED_CELL(addr)) {
NOMARK_CELL(addr);
} else {
clr_cell(addr);
SET_CDR(addr, hp[i]);
hp[i] = addr;
fc[i]++;
i++;
if (i > mt_queue_num)
i = 0;
}
addr++;
}
}
DBG_PRINTF("exit concurrent M&S-GC free=%d\n", fc[0]);
}
void mark_cell(int addr)
{
int i, m, n, x;
if (addr < 0 || addr >= CELLSIZE)
return;
if (USED_CELL(addr))
return;
MARK_CELL(addr);
switch (GET_TAG(addr)) {
case EMP:
case INTN:
case FLTN:
case LONGN:
case CHR:
case STR:
case STREAM:
case BIGN:
return;
case VEC:
n = vector_length(addr);
for (i = 0; i < n; i++) {
x = GET_VEC_ELT(addr, i);
mark_cell(x);
}
return;
case ARR:
m = array_length(addr);
n = 1;
while (!nullp(m)) {
n = n * GET_INT(car(m));
m = cdr(m);
}
for (i = 0; i < n; i++) {
x = GET_VEC_ELT(addr, i);
mark_cell(x);
}
mark_cell(cdr(addr)); /* dimension */
return;
case SYM:
mark_cell(car(addr));
mark_cell(cdr(addr));
mark_cell(GET_AUX(addr));
mark_cell(GET_PROP(addr));
return;
case FUNC:
mark_cell(car(addr));
mark_cell(cdr(addr));
mark_cell(GET_AUX(addr));
mark_cell(GET_PROP(addr));
return;
case MACRO:
case GENERIC:
case METHOD:
case CLASS:
case INSTANCE:
case LIS:
mark_cell(car(addr));
mark_cell(cdr(addr));
mark_cell(GET_AUX(addr));
return;
case SUBR:
mark_cell(GET_AUX(addr));
mark_cell(GET_CDR(addr)); //compiled lambda's free variables
return;
case FSUBR:
mark_cell(GET_AUX(addr));
return;
default:
IP(false, "mark_cell tag switch default action");
}
}
void clr_cell(int addr)
{
if (IS_VECTOR(addr) || IS_ARRAY(addr))
FREE(heap[addr].val.car.dyna_vec);
SET_TAG(addr, EMP);
FREE(heap[addr].name);
SET_CAR(addr, 0);
SET_CDR(addr, 0);
SET_AUX(addr, 0);
SET_PROP(addr, 0);
SET_OPT(addr, 0);
SET_TR(addr, 0);
}
/* when free cells are less FREESIZE, invoke gbc() */
int check_gbc(int th)
{
if (exit_flag) {
if (parallel_flag) {
exit_flag = 0;
RAISE(Exit_Thread);
} else {
exit_flag = 0;
RAISE(Restart_Repl);
}
}
if (fc[th] < FREESIZE) {
gbc();
}
return 0;
}
int freecell(void)
{
return (fc[0]);
}