namespace factor {
-/* Allocates memory */
+// Allocates memory
string* factor_vm::allot_string_internal(cell capacity) {
string* str = allot<string>(string_size(capacity));
return str;
}
-/* Allocates memory */
+// Allocates memory
void factor_vm::fill_string(string* str_, cell start, cell capacity,
cell fill) {
data_root<string> str(str_, this);
}
}
-/* Allocates memory */
+// Allocates memory
string* factor_vm::allot_string(cell capacity, cell fill) {
data_root<string> str(allot_string_internal(capacity), this);
fill_string(str.untagged(), 0, capacity, fill);
return str.untagged();
}
-/* Allocates memory */
+// Allocates memory
void factor_vm::primitive_string() {
cell initial = to_cell(ctx->pop());
cell length = unbox_array_size();
}
bool factor_vm::reallot_string_in_place_p(string* str, cell capacity) {
- return nursery.contains_p(str) &&
+ return data->nursery->contains_p(str) &&
(!to_boolean(str->aux) ||
- nursery.contains_p(untag<byte_array>(str->aux))) &&
+ data->nursery->contains_p(untag<byte_array>(str->aux))) &&
capacity <= string_capacity(str);
}
-/* Allocates memory */
+// Allocates memory
string* factor_vm::reallot_string(string* str_, cell capacity) {
data_root<string> str(str_, this);
}
}
-/* Allocates memory */
+// Allocates memory
void factor_vm::primitive_resize_string() {
data_root<string> str(ctx->pop(), this);
- str.untag_check(this);
+ check_tagged(str);
cell capacity = unbox_array_size();
ctx->push(tag<string>(reallot_string(str.untagged(), capacity)));
}