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factor/vm/objects.cpp

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C++
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#include "master.hpp"
namespace factor {
// Size of the object pointed to by a tagged pointer
cell object_size(cell tagged) {
if (immediate_p(tagged))
return 0;
return untag<object>(tagged)->size();
}
void factor_vm::primitive_special_object() {
fixnum n = untag_fixnum(ctx->peek());
ctx->replace(special_objects[n]);
}
void factor_vm::primitive_set_special_object() {
fixnum n = untag_fixnum(ctx->pop());
cell value = ctx->pop();
special_objects[n] = value;
}
void factor_vm::primitive_identity_hashcode() {
cell tagged = ctx->peek();
object* obj = untag<object>(tagged);
ctx->replace(tag_fixnum(obj->hashcode()));
}
void factor_vm::primitive_compute_identity_hashcode() {
object* obj = untag<object>(ctx->pop());
object_counter++;
if (object_counter == 0)
object_counter++;
obj->set_hashcode((cell)obj ^ object_counter);
}
void factor_vm::primitive_set_slot() {
fixnum slot = untag_fixnum(ctx->pop());
object* obj = untag<object>(ctx->pop());
cell value = ctx->pop();
cell* slot_ptr = &obj->slots()[slot];
*slot_ptr = value;
write_barrier(slot_ptr);
}
// Allocates memory
void factor_vm::primitive_clone() {
data_root<object> obj(ctx->peek(), this);
if (immediate_p(obj.value()))
return;
cell size = object_size(obj.value());
object* new_obj = allot_object(obj.type(), size);
memcpy(new_obj, obj.untagged(), size);
new_obj->set_hashcode(0);
ctx->replace(tag_dynamic(new_obj));
}
// Allocates memory
void factor_vm::primitive_size() {
ctx->replace(from_unsigned_cell(object_size(ctx->peek())));
}
struct slot_become_fixup : no_fixup {
std::map<object*, object*>* become_map;
slot_become_fixup(std::map<object*, object*>* become_map)
: become_map(become_map) {}
object* fixup_data(object* old) {
std::map<object*, object*>::const_iterator iter = become_map->find(old);
if (iter != become_map->end())
return iter->second;
return old;
}
};
// classes.tuple uses this to reshape tuples; tools.deploy.shaker uses this
// to coalesce equal but distinct quotations and wrappers.
// Calls gc
void factor_vm::primitive_become() {
primitive_minor_gc();
array* new_objects = untag_check<array>(ctx->pop());
array* old_objects = untag_check<array>(ctx->pop());
cell capacity = array_capacity(new_objects);
if (capacity != array_capacity(old_objects))
critical_error("bad parameters to become", 0);
// Build the forwarding map
std::map<object*, object*> become_map;
for (cell i = 0; i < capacity; i++) {
cell old_ptr = array_nth(old_objects, i);
cell new_ptr = array_nth(new_objects, i);
if (old_ptr != new_ptr)
become_map[untag<object>(old_ptr)] = untag<object>(new_ptr);
}
// Update all references to old objects to point to new objects
{
slot_visitor<slot_become_fixup> visitor(this,
slot_become_fixup(&become_map));
visitor.visit_all_roots();
auto object_become_func = [&](object* obj) {
visitor.visit_slots(obj);
};
each_object(object_become_func);
auto code_block_become_func = [&](code_block* compiled, cell size) {
(void)size;
visitor.visit_code_block_objects(compiled);
visitor.visit_embedded_literals(compiled);
code->write_barrier(compiled);
};
each_code_block(code_block_become_func);
}
// Since we may have introduced old->new references, need to revisit
// all objects and code blocks on a minor GC.
data->mark_all_cards();
}
}
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