ref: a8083462e62459b2ae8a243dc4ba88416eba03b1
dir: /libinterp/heap.c/
#include "lib9.h"
#include "isa.h"
#include "interp.h"
#include "pool.h"
#include "raise.h"
void freearray(Heap*, int);
void freelist(Heap*, int);
void freemodlink(Heap*, int);
void freechan(Heap*, int);
Type Tarray = { 1, freearray, markarray, sizeof(Array) };
Type Tstring = { 1, freestring, noptrs, sizeof(String) };
Type Tlist = { 1, freelist, marklist, sizeof(List) };
Type Tmodlink = { 1, freemodlink, markheap, -1, 1, 0, 0, { 0x80 } };
Type Tchannel = { 1, freechan, markheap, sizeof(Channel), 1,0,0,{0x80} };
Type Tptr = { 1, 0, markheap, sizeof(WORD*), 1, 0, 0, { 0x80 } };
Type Tbyte = { 1, 0, 0, 1 };
Type Tword = { 1, 0, 0, sizeof(WORD) };
Type Tlong = { 1, 0, 0, sizeof(LONG) };
Type Treal = { 1, 0, 0, sizeof(REAL) };
extern Pool* heapmem;
extern int mutator;
void (*heapmonitor)(int, void*, ulong);
#define BIT(bt, nb) (bt & (1<<nb))
void
freeptrs(void *v, Type *t)
{
int c;
WORD **w, *x;
uchar *p, *ep;
if(t->np == 0)
return;
w = (WORD**)v;
p = t->map;
ep = p + t->np;
while(p < ep) {
c = *p;
if(c != 0) {
if(BIT(c, 0) && (x = w[7]) != H) destroy(x);
if(BIT(c, 1) && (x = w[6]) != H) destroy(x);
if(BIT(c, 2) && (x = w[5]) != H) destroy(x);
if(BIT(c, 3) && (x = w[4]) != H) destroy(x);
if(BIT(c, 4) && (x = w[3]) != H) destroy(x);
if(BIT(c, 5) && (x = w[2]) != H) destroy(x);
if(BIT(c, 6) && (x = w[1]) != H) destroy(x);
if(BIT(c, 7) && (x = w[0]) != H) destroy(x);
}
p++;
w += 8;
}
}
/*
void
nilptrs(void *v, Type *t)
{
int c, i;
WORD **w;
uchar *p, *ep;
w = (WORD**)v;
p = t->map;
ep = p + t->np;
while(p < ep) {
c = *p;
for(i = 0; i < 8; i++){
if(BIT(c, 7)) *w = H;
c <<= 1;
w++;
}
p++;
}
}
*/
void
freechan(Heap *h, int swept)
{
Channel *c;
USED(swept);
c = H2D(Channel*, h);
if(c->mover == movtmp)
freetype(c->mid.t);
killcomm(&c->send);
killcomm(&c->recv);
if (!swept && c->buf != H)
destroy(c->buf);
}
void
freestring(Heap *h, int swept)
{
String *s;
USED(swept);
s = H2D(String*, h);
if(s->tmp != nil)
free(s->tmp);
}
void
freearray(Heap *h, int swept)
{
int i;
Type *t;
uchar *v;
Array *a;
a = H2D(Array*, h);
t = a->t;
if(!swept) {
if(a->root != H)
destroy(a->root);
else
if(t->np != 0) {
v = a->data;
for(i = 0; i < a->len; i++) {
freeptrs(v, t);
v += t->size;
}
}
}
if(t->ref-- == 1) {
free(t->initialize);
free(t);
}
}
void
freelist(Heap *h, int swept)
{
Type *t;
List *l;
Heap *th;
l = H2D(List*, h);
t = l->t;
if(t != nil) {
if(!swept && t->np)
freeptrs(l->data, t);
t->ref--;
if(t->ref == 0) {
free(t->initialize);
free(t);
}
}
if(swept)
return;
l = l->tail;
while(l != (List*)H) {
t = l->t;
th = D2H(l);
if(th->ref-- != 1)
break;
th->t->ref--; /* should be &Tlist and ref shouldn't go to 0 here nor be 0 already */
if(t != nil) {
if (t->np)
freeptrs(l->data, t);
t->ref--;
if(t->ref == 0) {
free(t->initialize);
free(t);
}
}
l = l->tail;
if(heapmonitor != nil)
heapmonitor(1, th, 0);
poolfree(heapmem, th);
}
}
void
freemodlink(Heap *h, int swept)
{
Modlink *ml;
ml = H2D(Modlink*, h);
if(ml->m->rt == DYNMOD)
freedyndata(ml);
else if(!swept)
destroy(ml->MP);
unload(ml->m);
}
int
heapref(void *v)
{
return D2H(v)->ref;
}
void
freeheap(Heap *h, int swept)
{
Type *t;
if(swept)
return;
t = h->t;
if (t->np)
freeptrs(H2D(void*, h), t);
}
void
destroy(void *v)
{
Heap *h;
Type *t;
if(v == H)
return;
h = D2H(v);
{ Bhdr *b; D2B(b, h); } /* consistency check */
if(--h->ref > 0 || gchalt > 64) /* Protect 'C' thread stack */
return;
if(heapmonitor != nil)
heapmonitor(1, h, 0);
t = h->t;
if(t != nil) {
gclock();
t->free(h, 0);
gcunlock();
freetype(t);
}
poolfree(heapmem, h);
}
Type*
dtype(void (*destroy)(Heap*, int), int size, uchar *map, int mapsize)
{
Type *t;
t = malloc(sizeof(Type)-sizeof(t->map)+mapsize);
if(t != nil) {
t->ref = 1;
t->free = destroy;
t->mark = markheap;
t->size = size;
t->np = mapsize;
memmove(t->map, map, mapsize);
}
return t;
}
void*
checktype(void *v, Type *t, char *name, int newref)
{
Heap *h;
if(v == H || v == nil)
error(exNilref);
h = D2H(v);
if(t == nil || h->t != t)
errorf("%s: %s", exType, name);
if(newref){
h->ref++;
Setmark(h);
}
return v;
}
void
freetype(Type *t)
{
if(t == nil || --t->ref > 0)
return;
free(t->initialize);
free(t);
}
void
incmem(void *vw, Type *t)
{
Heap *h;
uchar *p;
int i, c, m;
WORD **w, **q, *wp;
w = (WORD**)vw;
p = t->map;
for(i = 0; i < t->np; i++) {
c = *p++;
if(c != 0) {
q = w;
for(m = 0x80; m != 0; m >>= 1) {
if((c & m) && (wp = *q) != H) {
h = D2H(wp);
h->ref++;
Setmark(h);
}
q++;
}
}
w += 8;
}
}
void
scanptrs(void *vw, Type *t, void (*f)(void*))
{
uchar *p;
int i, c, m;
WORD **w, **q, *wp;
w = (WORD**)vw;
p = t->map;
for(i = 0; i < t->np; i++) {
c = *p++;
if(c != 0) {
q = w;
for(m = 0x80; m != 0; m >>= 1) {
if((c & m) && (wp = *q) != H)
f(D2H(wp));
q++;
}
}
w += 8;
}
}
void
initmem(Type *t, void *vw)
{
int c;
WORD **w;
uchar *p, *ep;
w = (WORD**)vw;
p = t->map;
ep = p + t->np;
while(p < ep) {
c = *p;
if(c != 0) {
if(BIT(c, 0)) w[7] = H;
if(BIT(c, 1)) w[6] = H;
if(BIT(c, 2)) w[5] = H;
if(BIT(c, 3)) w[4] = H;
if(BIT(c, 4)) w[3] = H;
if(BIT(c, 5)) w[2] = H;
if(BIT(c, 6)) w[1] = H;
if(BIT(c, 7)) w[0] = H;
}
p++;
w += 8;
}
}
Heap*
nheap(int n)
{
Heap *h;
h = poolalloc(heapmem, sizeof(Heap)+n);
if(h == nil)
error(exHeap);
h->t = nil;
h->ref = 1;
h->color = mutator;
if(heapmonitor != nil)
heapmonitor(0, h, n);
return h;
}
Heap*
heapz(Type *t)
{
Heap *h;
h = poolalloc(heapmem, sizeof(Heap)+t->size);
if(h == nil)
error(exHeap);
h->t = t;
t->ref++;
h->ref = 1;
h->color = mutator;
memset(H2D(void*, h), 0, t->size);
if(t->np)
initmem(t, H2D(void*, h));
if(heapmonitor != nil)
heapmonitor(0, h, t->size);
return h;
}
Heap*
heap(Type *t)
{
Heap *h;
h = poolalloc(heapmem, sizeof(Heap)+t->size);
if(h == nil)
error(exHeap);
h->t = t;
t->ref++;
h->ref = 1;
h->color = mutator;
if(t->np)
initmem(t, H2D(void*, h));
if(heapmonitor != nil)
heapmonitor(0, h, t->size);
return h;
}
Heap*
heaparray(Type *t, int sz)
{
Heap *h;
Array *a;
h = nheap(sizeof(Array) + (t->size*sz));
h->t = &Tarray;
Tarray.ref++;
a = H2D(Array*, h);
a->t = t;
a->len = sz;
a->root = H;
a->data = (uchar*)a + sizeof(Array);
initarray(t, a);
return h;
}
int
hmsize(void *v)
{
return poolmsize(heapmem, v);
}
void
initarray(Type *t, Array *a)
{
int i;
uchar *p;
t->ref++;
if(t->np == 0)
return;
p = a->data;
for(i = 0; i < a->len; i++) {
initmem(t, p);
p += t->size;
}
}
void*
arraycpy(Array *sa)
{
int i;
Heap *dh;
Array *da;
uchar *elemp;
void **sp, **dp;
if(sa == H)
return H;
dh = nheap(sizeof(Array) + sa->t->size*sa->len);
dh->t = &Tarray;
Tarray.ref++;
da = H2D(Array*, dh);
da->t = sa->t;
da->t->ref++;
da->len = sa->len;
da->root = H;
da->data = (uchar*)da + sizeof(Array);
if(da->t == &Tarray) {
dp = (void**)da->data;
sp = (void**)sa->data;
/*
* Maximum depth of this recursion is set by DADEPTH
* in include/isa.h
*/
for(i = 0; i < sa->len; i++)
dp[i] = arraycpy(sp[i]);
}
else {
memmove(da->data, sa->data, da->len*sa->t->size);
elemp = da->data;
for(i = 0; i < sa->len; i++) {
incmem(elemp, da->t);
elemp += da->t->size;
}
}
return da;
}
void
newmp(void *dst, void *src, Type *t)
{
Heap *h;
int c, i, m;
void **uld, *wp, **q;
memmove(dst, src, t->size);
uld = dst;
for(i = 0; i < t->np; i++) {
c = t->map[i];
if(c != 0) {
m = 0x80;
q = uld;
while(m != 0) {
if((m & c) && (wp = *q) != H) {
h = D2H(wp);
if(h->t == &Tarray)
*q = arraycpy(wp);
else {
h->ref++;
Setmark(h);
}
}
m >>= 1;
q++;
}
}
uld += 8;
}
}