jl_array_t *jl_ptr_to_array(jl_type_t *atype, void *data, jl_tuple_t *dims,
int own_buffer)
{
size_t i, elsz, nel=1;
jl_array_t *a;
size_t ndims = jl_tuple_len(dims);
for(i=0; i < ndims; i++) {
nel *= jl_unbox_long(jl_tupleref(dims, i));
}
jl_type_t *el_type = (jl_type_t*)jl_tparam0(atype);
int isunboxed = jl_is_bits_type(el_type);
if (isunboxed)
elsz = jl_bitstype_nbits(el_type)/8;
else
elsz = sizeof(void*);
int ndimwords = jl_array_ndimwords(ndims);
a = allocobj((sizeof(jl_array_t) + ndimwords*sizeof(size_t)+15)&-16);
a->type = atype;
a->data = data;
a->length = nel;
a->elsize = elsz;
a->ptrarray = !isunboxed;
a->ndims = ndims;
if (own_buffer) {
a->ismalloc = 1;
jl_array_data_owner(a) = (jl_value_t*)jl_gc_acquire_buffer(data,nel*elsz);
}
else {
a->ismalloc = 0;
jl_array_data_owner(a) = (jl_value_t*)a;
}
if (ndims == 1) {
a->nrows = a->length;
a->maxsize = a->length;
a->offset = 0;
}
else {
size_t *adims = &a->nrows;
for(i=0; i < ndims; i++) {
adims[i] = jl_unbox_long(jl_tupleref(dims, i));
}
}
return a;
}
JL_DLLEXPORT jl_value_t *jl_array_to_string(jl_array_t *a)
{
size_t len = jl_array_len(a);
if (a->flags.how == 3 && a->offset == 0 && a->elsize == 1 &&
(jl_array_ndims(a) != 1 ||
((a->maxsize + sizeof(void*) + 1 <= GC_MAX_SZCLASS) == (len + sizeof(void*) + 1 <= GC_MAX_SZCLASS)))) {
jl_value_t *o = jl_array_data_owner(a);
if (jl_is_string(o)) {
a->flags.isshared = 1;
*(size_t*)o = len;
a->nrows = 0;
#ifdef STORE_ARRAY_LEN
a->length = 0;
#endif
a->maxsize = 0;
return o;
}
}
a->nrows = 0;
#ifdef STORE_ARRAY_LEN
a->length = 0;
#endif
a->maxsize = 0;
return jl_pchar_to_string((const char*)jl_array_data(a), len);
}
JL_DLLEXPORT jl_array_t *jl_string_to_array(jl_value_t *str)
{
jl_ptls_t ptls = jl_get_ptls_states();
jl_array_t *a;
int ndimwords = jl_array_ndimwords(1);
int tsz = JL_ARRAY_ALIGN(sizeof(jl_array_t) + ndimwords*sizeof(size_t) + sizeof(void*), JL_SMALL_BYTE_ALIGNMENT);
a = (jl_array_t*)jl_gc_alloc(ptls, tsz, jl_array_uint8_type);
a->flags.pooled = tsz <= GC_MAX_SZCLASS;
a->flags.ndims = 1;
a->offset = 0;
a->data = jl_string_data(str);
a->flags.isaligned = 0;
a->elsize = 1;
a->flags.ptrarray = 0;
jl_array_data_owner(a) = str;
a->flags.how = 3;
a->flags.isshared = 1;
size_t l = jl_string_len(str);
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
a->nrows = a->maxsize = l;
return a;
}
// hack to expose ios_stdout to julia. we could create a new iostream pointing
// to stdout, but then there would be two buffers for one descriptor, and
// ios_stdout is used before julia IOStream is available, creating a potential
// mess.
DLLEXPORT jl_value_t *jl_stdout_stream(void)
{
jl_array_t *a = jl_alloc_array_1d(jl_array_uint8_type, sizeof(ios_t));
a->data = (void*)ios_stdout;
jl_array_data_owner(a) = (jl_value_t*)a;
return (jl_value_t*)a;
}
STATIC_INLINE jl_value_t *jl_array_owner(jl_array_t *a)
{
if (a->flags.how == 3) {
a = (jl_array_t*)jl_array_data_owner(a);
assert(a->flags.how != 3);
}
return (jl_value_t*)a;
}
jl_array_t *jl_reshape_array(jl_value_t *atype, jl_array_t *data, jl_tuple_t *dims)
{
size_t i;
jl_array_t *a;
size_t ndims = jl_tuple_len(dims);
int ndimwords = jl_array_ndimwords(ndims);
a = allocobj((sizeof(jl_array_t) + sizeof(void*) + ndimwords*sizeof(size_t) + 15)&-16);
a->type = atype;
a->ndims = ndims;
a->offset = 0;
a->data = NULL;
a->isaligned = data->isaligned;
jl_value_t *el_type = jl_tparam0(atype);
if (store_unboxed(el_type)) {
a->elsize = jl_datatype_size(el_type);
a->ptrarray = 0;
}
else {
a->elsize = sizeof(void*);
a->ptrarray = 1;
}
JL_GC_PUSH1(&a);
jl_array_data_owner(a) = (jl_value_t*)data;
a->how = 3;
a->data = data->data;
a->isshared = 1;
data->isshared = 1;
if (ndims == 1) {
size_t l = jl_unbox_long(jl_tupleref(dims,0));
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
a->nrows = l;
a->maxsize = l;
}
else {
size_t *adims = &a->nrows;
size_t l=1;
wideint_t prod;
for(i=0; i < ndims; i++) {
adims[i] = jl_unbox_long(jl_tupleref(dims, i));
prod = (wideint_t)l * (wideint_t)adims[i];
if (prod > (wideint_t) MAXINTVAL)
jl_error("invalid Array dimensions");
l = prod;
}
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
}
JL_GC_POP();
return a;
}
// own_buffer != 0 iff GC should call free() on this pointer eventually
jl_array_t *jl_ptr_to_array_1d(jl_type_t *atype, void *data, size_t nel,
int own_buffer)
{
size_t elsz;
jl_array_t *a;
jl_type_t *el_type = (jl_type_t*)jl_tparam0(atype);
int isunboxed = jl_is_bits_type(el_type);
if (isunboxed)
elsz = jl_bitstype_nbits(el_type)/8;
else
elsz = sizeof(void*);
a = allocobj((sizeof(jl_array_t)+jl_array_ndimwords(1)*sizeof(size_t)+15)&-16);
a->type = atype;
a->data = data;
a->length = nel;
a->elsize = elsz;
a->ptrarray = !isunboxed;
a->ndims = 1;
if (own_buffer) {
a->ismalloc = 1;
jl_array_data_owner(a) = (jl_value_t*)jl_gc_acquire_buffer(data,nel*elsz);
}
else {
a->ismalloc = 0;
jl_array_data_owner(a) = (jl_value_t*)a;
}
a->nrows = a->length;
a->maxsize = a->length;
a->offset = 0;
return a;
}
void jl_arrayset(jl_array_t *a, jl_value_t *rhs, size_t i)
{
assert(i < jl_array_len(a));
jl_value_t *el_type = jl_tparam0(jl_typeof(a));
if (el_type != (jl_value_t*)jl_any_type) {
if (!jl_subtype(rhs, el_type, 1))
jl_type_error("arrayset", el_type, rhs);
}
if (!a->ptrarray) {
jl_assign_bits(&((char*)a->data)[i*a->elsize], rhs);
}
else {
((jl_value_t**)a->data)[i] = rhs;
jl_value_t *owner = (jl_value_t*)a;
if (a->how == 3) {
owner = jl_array_data_owner(a);
}
jl_gc_wb(owner, rhs);
}
}
STATIC_INLINE int jl_has_implicit_byte(jl_array_t *a)
{
// * unshared:
// * how: 0-2
// We own and allocated the data.
// It should have the extra byte.
// * shared:
// * how: 0, 2
// The data might come from external source without implicit NUL byte.
// There could be an entra byte for a `reinterpreted` array
// but that should be unlikely for strings.
// * how: 1
// We allocated the data with the extra byte.
// * how: 3
// We should check the owner.
if (a->flags.how == 3) {
a = (jl_array_t*)jl_array_data_owner(a);
return a->elsize == 1 && jl_has_implicit_byte_owned(a);
}
return jl_has_implicit_byte_owned(a);
}
void jl_array_grow_beg(jl_array_t *a, size_t inc)
{
// designed to handle the case of growing and shrinking at both ends
if (inc == 0)
return;
size_t es = a->elsize;
size_t nb = inc*es;
if (a->offset >= inc) {
a->data = (char*)a->data - nb;
a->offset -= inc;
}
else {
size_t alen = a->length;
size_t anb = alen*es;
char *newdata;
jl_mallocptr_t *mp = NULL;
if (inc > (a->maxsize-alen)/2 - (a->maxsize-alen)/20) {
size_t newlen = a->maxsize==0 ? 2*inc : a->maxsize*2;
while (alen+2*inc > newlen-a->offset)
newlen *= 2;
mp = array_new_buffer(a, newlen);
newdata = mp->ptr;
size_t center = (newlen - (alen + inc))/2;
newdata += (center*es);
a->maxsize = newlen;
a->offset = center;
}
else {
size_t center = (a->maxsize - (alen + inc))/2;
newdata = (char*)a->data - es*a->offset + es*center;
a->offset = center;
}
memmove(&newdata[nb], a->data, anb);
a->data = newdata;
if (mp) { jl_array_data_owner(a) = (jl_value_t*)mp; a->ismalloc = 1; }
}
a->length += inc; a->nrows += inc;
}
void jl_array_grow_end(jl_array_t *a, size_t inc)
{
// optimized for the case of only growing and shrinking at the end
size_t alen = a->length;
if ((alen + inc) > a->maxsize - a->offset) {
size_t newlen = a->maxsize==0 ? (inc<4?4:inc) : a->maxsize*2;
while ((alen + inc) > newlen - a->offset)
newlen *= 2;
jl_mallocptr_t *mp = array_new_buffer(a, newlen);
char *newdata = mp->ptr;
size_t es = a->elsize;
newdata += (a->offset*es);
size_t anb = alen*es;
memcpy(newdata, (char*)a->data, anb);
if (es == 1) {
memset(newdata + anb, 0, (newlen-a->offset-alen)*es);
}
a->maxsize = newlen;
a->data = newdata;
jl_array_data_owner(a) = (jl_value_t*)mp;
a->ismalloc = 1;
}
a->length += inc; a->nrows += inc;
}
jl_array_t *jl_reshape_array(jl_value_t *atype, jl_array_t *data, jl_value_t *dims)
{
size_t i;
jl_array_t *a;
size_t ndims = jl_nfields(dims);
int ndimwords = jl_array_ndimwords(ndims);
int tsz = JL_ARRAY_ALIGN(sizeof(jl_array_t) + ndimwords*sizeof(size_t) + sizeof(void*), 16);
a = (jl_array_t*)jl_gc_allocobj(tsz);
jl_set_typeof(a, atype);
a->pooled = tsz <= GC_MAX_SZCLASS;
a->ndims = ndims;
a->offset = 0;
a->data = NULL;
a->isaligned = data->isaligned;
jl_value_t *el_type = jl_tparam0(atype);
if (store_unboxed(el_type)) {
a->elsize = jl_datatype_size(el_type);
a->ptrarray = 0;
}
else {
a->elsize = sizeof(void*);
a->ptrarray = 1;
}
JL_GC_PUSH1(&a);
jl_array_t *owner = data;
// if data is itself a shared wrapper,
// owner should point back to the original array
if (owner->how == 3) {
owner = (jl_array_t*)jl_array_data_owner(owner);
}
assert(owner->how != 3);
jl_array_data_owner(a) = (jl_value_t*)owner;
a->how = 3;
a->data = data->data;
a->isshared = 1;
data->isshared = 1;
if (ndims == 1) {
size_t l = ((size_t*)jl_data_ptr(dims))[0];
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
a->nrows = l;
a->maxsize = l;
}
else {
size_t *adims = &a->nrows;
size_t l=1;
wideint_t prod;
for(i=0; i < ndims; i++) {
adims[i] = ((size_t*)jl_data_ptr(dims))[i];
prod = (wideint_t)l * (wideint_t)adims[i];
if (prod > (wideint_t) MAXINTVAL)
jl_error("invalid Array dimensions");
l = prod;
}
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
}
JL_GC_POP();
return a;
}
JL_DLLEXPORT jl_array_t *jl_reshape_array(jl_value_t *atype, jl_array_t *data,
jl_value_t *_dims)
{
jl_ptls_t ptls = jl_get_ptls_states();
jl_array_t *a;
size_t ndims = jl_nfields(_dims);
assert(is_ntuple_long(_dims));
size_t *dims = (size_t*)_dims;
int ndimwords = jl_array_ndimwords(ndims);
int tsz = JL_ARRAY_ALIGN(sizeof(jl_array_t) + ndimwords*sizeof(size_t) + sizeof(void*), JL_SMALL_BYTE_ALIGNMENT);
a = (jl_array_t*)jl_gc_alloc(ptls, tsz, atype);
// No allocation or safepoint allowed after this
a->flags.pooled = tsz <= GC_MAX_SZCLASS;
a->flags.ndims = ndims;
a->offset = 0;
a->data = NULL;
a->flags.isaligned = data->flags.isaligned;
jl_value_t *el_type = jl_tparam0(atype);
assert(store_unboxed(el_type) == !data->flags.ptrarray);
if (!data->flags.ptrarray) {
a->elsize = jl_datatype_size(el_type);
a->flags.ptrarray = 0;
}
else {
a->elsize = sizeof(void*);
a->flags.ptrarray = 1;
}
// if data is itself a shared wrapper,
// owner should point back to the original array
jl_array_data_owner(a) = jl_array_owner(data);
a->flags.how = 3;
a->data = data->data;
a->flags.isshared = 1;
data->flags.isshared = 1;
if (ndims == 1) {
size_t l = dims[0];
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
a->nrows = l;
a->maxsize = l;
}
else {
size_t *adims = &a->nrows;
size_t l = 1;
wideint_t prod;
for (size_t i = 0; i < ndims; i++) {
adims[i] = dims[i];
prod = (wideint_t)l * (wideint_t)adims[i];
if (prod > (wideint_t) MAXINTVAL)
jl_error("invalid Array dimensions");
l = prod;
}
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
}
return a;
}
JL_DLLEXPORT jl_value_t *(jl_array_data_owner)(jl_array_t *a)
{
return jl_array_data_owner(a);
}
jl_array_t *jl_reshape_array(jl_type_t *atype, jl_array_t *data,
jl_tuple_t *dims)
{
size_t i;
jl_array_t *a;
size_t ndims = jl_tuple_len(dims);
int ndimwords = jl_array_ndimwords(ndims);
a = allocobj((sizeof(jl_array_t) + ndimwords*sizeof(size_t) + 15)&-16);
a->type = atype;
a->ndims = ndims;
a->data = NULL;
JL_GC_PUSH(&a);
char *d = data->data;
if (data->ndims == 1) d -= data->offset*data->elsize;
if (d == jl_array_inline_data_area(data)) {
if (data->ndims == 1) {
// data might resize, so switch it to shared representation.
// problem: we'd like to do that, but it might not be valid,
// since the buffer might be used from C in a way that it's
// assumed not to move. for now, just copy the data (note this
// case only happens for sizes <= ARRAY_INLINE_NBYTES)
jl_mallocptr_t *mp = array_new_buffer(data, data->length);
memcpy(mp->ptr, data->data, data->length * data->elsize);
a->data = mp->ptr;
jl_array_data_owner(a) = (jl_value_t*)mp;
a->ismalloc = 1;
//data->data = mp->ptr;
//data->offset = 0;
//data->maxsize = data->length;
//jl_array_data_owner(data) = (jl_value_t*)mp;
}
else {
a->ismalloc = 0;
jl_array_data_owner(a) = (jl_value_t*)data;
}
}
else {
a->ismalloc = data->ismalloc;
jl_array_data_owner(a) = jl_array_data_owner(data);
}
if (a->data == NULL) a->data = data->data;
jl_type_t *el_type = (jl_type_t*)jl_tparam0(atype);
if (jl_is_bits_type(el_type)) {
a->elsize = jl_bitstype_nbits(el_type)/8;
a->ptrarray = 0;
}
else {
a->elsize = sizeof(void*);
a->ptrarray = 1;
}
if (ndims == 1) {
a->length = jl_unbox_long(jl_tupleref(dims,0));
a->nrows = a->length;
a->maxsize = a->length;
a->offset = 0;
}
else {
size_t *adims = &a->nrows;
size_t l=1;
for(i=0; i < ndims; i++) {
adims[i] = jl_unbox_long(jl_tupleref(dims, i));
l *= adims[i];
}
a->length = l;
}
JL_GC_POP();
return a;
}
static void gc_mark_all()
{
while (mark_sp > 0) {
jl_value_t *v = mark_stack[--mark_sp];
jl_value_t *vt = (jl_value_t*)gc_typeof(v);
// some values have special representations
if (vt == (jl_value_t*)jl_tuple_type) {
size_t l = jl_tuple_len(v);
jl_value_t **data = ((jl_tuple_t*)v)->data;
for(size_t i=0; i < l; i++) {
jl_value_t *elt = data[i];
if (elt != NULL)
gc_push_root(elt);
}
}
else if (((jl_datatype_t*)(vt))->name == jl_array_typename) {
jl_array_t *a = (jl_array_t*)v;
char *data = a->data;
if (data == NULL) continue;
int ndims = jl_array_ndims(a);
char *data0 = data;
if (ndims == 1) data0 -= a->offset*a->elsize;
if (!a->isinline) {
jl_value_t *owner = jl_array_data_owner(a);
if (a->ismalloc) {
// jl_mallocptr_t
if (gc_marked(owner))
continue;
gc_setmark(owner);
}
else {
// an array
v = owner;
if (v != (jl_value_t*)a) {
gc_push_root(v);
continue;
}
}
}
if (a->ptrarray) {
size_t l = jl_array_len(a);
for(size_t i=0; i < l; i++) {
jl_value_t *elt = ((jl_value_t**)data)[i];
if (elt != NULL) gc_push_root(elt);
}
}
}
else if (vt == (jl_value_t*)jl_module_type) {
gc_mark_module((jl_module_t*)v);
}
else if (vt == (jl_value_t*)jl_task_type) {
jl_task_t *ta = (jl_task_t*)v;
if (ta->on_exit) gc_push_root(ta->on_exit);
gc_push_root(ta->last);
gc_push_root(ta->tls);
gc_push_root(ta->consumers);
if (ta->start) gc_push_root(ta->start);
if (ta->result) gc_push_root(ta->result);
if (ta->stkbuf != NULL || ta == jl_current_task) {
if (ta->stkbuf != NULL)
gc_setmark_buf(ta->stkbuf);
#ifdef COPY_STACKS
ptrint_t offset;
if (ta == jl_current_task) {
offset = 0;
gc_mark_stack(jl_pgcstack, offset);
}
else {
offset = (char *)ta->stkbuf - ((char *)ta->stackbase - ta->ssize);
gc_mark_stack(ta->gcstack, offset);
}
#else
gc_mark_stack(ta->gcstack, 0);
#endif
}
}
else {
jl_datatype_t *dt = (jl_datatype_t*)vt;
int nf = (int)jl_tuple_len(dt->names);
for(int i=0; i < nf; i++) {
if (dt->fields[i].isptr) {
jl_value_t *fld = *(jl_value_t**)((char*)v + dt->fields[i].offset + sizeof(void*));
if (fld)
gc_push_root(fld);
}
}
}
}
}
JL_DLLEXPORT jl_array_t *jl_reshape_array(jl_value_t *atype, jl_array_t *data,
jl_value_t *_dims)
{
jl_ptls_t ptls = jl_get_ptls_states();
jl_array_t *a;
size_t ndims = jl_nfields(_dims);
assert(is_ntuple_long(_dims));
size_t *dims = (size_t*)_dims;
assert(jl_types_equal(jl_tparam0(jl_typeof(data)), jl_tparam0(atype)));
int ndimwords = jl_array_ndimwords(ndims);
int tsz = JL_ARRAY_ALIGN(sizeof(jl_array_t) + ndimwords * sizeof(size_t) + sizeof(void*), JL_SMALL_BYTE_ALIGNMENT);
a = (jl_array_t*)jl_gc_alloc(ptls, tsz, atype);
// No allocation or safepoint allowed after this
a->flags.pooled = tsz <= GC_MAX_SZCLASS;
a->flags.ndims = ndims;
a->offset = 0;
a->data = NULL;
a->flags.isaligned = data->flags.isaligned;
jl_array_t *owner = (jl_array_t*)jl_array_owner(data);
jl_value_t *eltype = jl_tparam0(atype);
size_t elsz = 0, align = 0;
int isboxed = !jl_islayout_inline(eltype, &elsz, &align);
assert(isboxed == data->flags.ptrarray);
if (!isboxed) {
a->elsize = elsz;
jl_value_t *ownerty = jl_typeof(owner);
size_t oldelsz = 0, oldalign = 0;
if (ownerty == (jl_value_t*)jl_string_type) {
oldalign = 1;
}
else {
jl_islayout_inline(jl_tparam0(ownerty), &oldelsz, &oldalign);
}
if (oldalign < align)
jl_exceptionf(jl_argumenterror_type,
"reinterpret from alignment %d bytes to alignment %d bytes not allowed",
(int) oldalign, (int) align);
a->flags.ptrarray = 0;
}
else {
a->elsize = sizeof(void*);
a->flags.ptrarray = 1;
}
// if data is itself a shared wrapper,
// owner should point back to the original array
jl_array_data_owner(a) = (jl_value_t*)owner;
a->flags.how = 3;
a->data = data->data;
a->flags.isshared = 1;
data->flags.isshared = 1;
if (ndims == 1) {
size_t l = dims[0];
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
a->nrows = l;
a->maxsize = l;
}
else {
size_t *adims = &a->nrows;
size_t l = 1;
wideint_t prod;
for (size_t i = 0; i < ndims; i++) {
adims[i] = dims[i];
prod = (wideint_t)l * (wideint_t)adims[i];
if (prod > (wideint_t) MAXINTVAL)
jl_error("invalid Array dimensions");
l = prod;
}
#ifdef STORE_ARRAY_LEN
a->length = l;
#endif
}
return a;
}
static void push_root(jl_value_t *v, int d)
{
assert(v != NULL);
jl_value_t *vt = (jl_value_t*)gc_typeof(v);
#ifdef OBJPROFILE
if (!gc_marked(v)) {
void **bp = ptrhash_bp(&obj_counts, vt);
if (*bp == HT_NOTFOUND)
*bp = (void*)2;
else
(*((ptrint_t*)bp))++;
}
#endif
gc_setmark(v);
if (vt == (jl_value_t*)jl_weakref_type ||
(jl_is_datatype(vt) && ((jl_datatype_t*)vt)->pointerfree)) {
return;
}
if (d >= MAX_MARK_DEPTH)
goto queue_the_root;
d++;
// some values have special representations
if (vt == (jl_value_t*)jl_tuple_type) {
size_t l = jl_tuple_len(v);
jl_value_t **data = ((jl_tuple_t*)v)->data;
for(size_t i=0; i < l; i++) {
jl_value_t *elt = data[i];
if (elt != NULL)
gc_push_root(elt, d);
}
}
else if (((jl_datatype_t*)(vt))->name == jl_array_typename) {
jl_array_t *a = (jl_array_t*)v;
if (a->how == 3) {
jl_value_t *owner = jl_array_data_owner(a);
gc_push_root(owner, d);
return;
}
else if (a->how == 1) {
gc_setmark_buf((char*)a->data - a->offset*a->elsize);
}
if (a->ptrarray && a->data!=NULL) {
size_t l = jl_array_len(a);
if (l > 100000 && d > MAX_MARK_DEPTH-10) {
// don't mark long arrays at high depth, to try to avoid
// copying the whole array into the mark queue
goto queue_the_root;
}
else {
void *data = a->data;
for(size_t i=0; i < l; i++) {
jl_value_t *elt = ((jl_value_t**)data)[i];
if (elt != NULL) gc_push_root(elt, d);
}
}
}
}
else if (vt == (jl_value_t*)jl_module_type) {
gc_mark_module((jl_module_t*)v, d);
}
else if (vt == (jl_value_t*)jl_task_type) {
gc_mark_task((jl_task_t*)v, d);
}
else {
jl_datatype_t *dt = (jl_datatype_t*)vt;
int nf = (int)jl_tuple_len(dt->names);
for(int i=0; i < nf; i++) {
if (dt->fields[i].isptr) {
jl_value_t *fld = *(jl_value_t**)((char*)v + dt->fields[i].offset + sizeof(void*));
if (fld)
gc_push_root(fld, d);
}
}
}
return;
queue_the_root:
if (mark_sp >= mark_stack_size) {
size_t newsz = mark_stack_size>0 ? mark_stack_size*2 : 32000;
mark_stack = (jl_value_t**)realloc(mark_stack,newsz*sizeof(void*));
if (mark_stack == NULL) exit(1);
mark_stack_size = newsz;
}
mark_stack[mark_sp++] = v;
}
