//: Reclaiming memory when it's no longer used.
void test_new_reclaim() {
run(
"def main [\n"
" 10:&:num <- new number:type\n"
" 20:num <- deaddress 10:&:num\n"
" abandon 10:&:num\n"
" 30:&:num <- new number:type\n" // must be same size as abandoned memory to reuse
" 40:num <- deaddress 30:&:num\n"
" 50:bool <- equal 20:num, 40:num\n"
"]\n"
);
CHECK_TRACE_CONTENTS(
// both allocations should have returned the same address
"mem: storing 1 in location 50\n"
);
}
//: When abandoning addresses we'll save them to a 'free list', segregated by size.
//: Before, suppose variable V contains address A which points to payload P:
//: location V contains an alloc-id N
//: location V+1 contains A
//: location A contains alloc-id N
//: location A+1 onwards contains P
//: Additionally, suppose the head of the free list is initially F.
//: After abandoning:
//: location V contains invalid alloc-id -1
//: location V+1 contains 0
//: location A contains invalid alloc-id N
//: location A+1 contains the previous head of free-list F
:(before "End routine Fields")
map<int, int> free_list;
:(before "End Primitive Recipe Declarations")
ABANDON,
:(before "End Primitive Recipe Numbers")
put(Recipe_ordinal, "abandon", ABANDON);
:(before "End Primitive Recipe Checks")
case ABANDON: {
if (!inst.products.empty()) {
raise << maybe(get(Recipe, r).name) << "'abandon' shouldn't write to any products in '" << to_original_string(inst) << "'\n" << end();
break;
}
for (int i = 0; i < SIZE(inst.ingredients); ++i) {
if (!is_mu_address(inst.ingredients.at(i)))
raise << maybe(get(Recipe, r).name) << "ingredients of 'abandon' should be addresses, but ingredient " << i << " is '" << to_string(inst.ingredients.at(i)) << '\n' << end();
break;
}
break;
}
:(before "End Primitive Recipe Implementations")
case ABANDON: {
for (int i = 0; i < SIZE(current_instruction().ingredients); ++i) {
reagent/*copy*/ ingredient = current_instruction().ingredients.at(i);
canonize(ingredient);
abandon(get_or_insert(Memory, ingredient.value+/*skip alloc id*/1), payload_size(ingredient));
//? cerr << "clear after abandon: " << ingredient.value << '\n';
put(Memory, /*alloc id*/ingredient.value, /*invalid*/-1);
put(Memory, /*address*/ingredient.value+1, 0);
}
break;
}
:(code)
void abandon(int address, int payload_size) {
put(Memory, address, /*invalid alloc-id*/-1);
//? cerr << "abandon: " << address << '\n';
// clear rest of payload
for (int curr = address+1; curr < address+payload_size; ++curr)
put(Memory, curr, 0);
// append existing free list to address
trace(Callstack_depth+1, "abandon") << "saving " << address << " in free-list of size " << payload_size << end();
put(Memory, address+/*skip invalid alloc-id*/1, get_or_insert(Current_routine->free_list, payload_size));
put(Current_routine->free_list, payload_size, address);
}
int payload_size(reagent/*copy*/ x) {
x.properties.push_back(pair<string, string_tree*>("lookup", NULL));
lookup_memory_core(x, /*check_for_null*/false);
return size_of(x)+/*alloc id*/1;
}
:(after "Allocate Special-cases")
if (get_or_insert(Current_routine->free_list, size)) {
trace(Callstack_depth+1, "abandon") << "picking up space from free-list of size " << size << end();
int result = get_or_insert(Current_routine->free_list, size);
trace(Callstack_depth+1, "mem") << "new alloc from free list: " << result << end();
put(Current_routine->free_list, size, get_or_insert(Memory, result+/*skip alloc id*/1));
// clear 'deleted' tag
put(Memory, result, 0);
// clear next pointer
put(Memory, result+/*skip alloc id*/1, 0);
for (int curr = result; curr < result+size; ++curr) {
if (get_or_insert(Memory, curr) != 0) {
raise << maybe(current_recipe_name()) << "memory in free list was not zeroed out: " << curr << '/' << result << "; somebody wrote to us after free!!!\n" << end();
break; // always fatal
}
}
return result;
}
:(code)
void test_new_differing_size_no_reclaim() {
run(
"def main [\n"
" 1:&:num <- new number:type\n"
" 2:num <- deaddress 1:&:num\n"
" abandon 1:&:num\n"
" 3:&:@:num <- new number:type, 2\n" // different size
" 4:num <- deaddress 3:&:@:num\n"
" 5:bool <- equal 2:num, 4:num\n"
"]\n"
);
CHECK_TRACE_CONTENTS(
// no reuse
"mem: storing 0 in location 5\n"
);
}
void test_new_reclaim_array() {
run(
"def main [\n"
" 10:&:@:num <- new number:type, 2\n"
" 20:num <- deaddress 10:&:@:num\n"
" abandon 10:&:@:num\n"
" 30:&:@:num <- new number:type, 2\n" // same size
" 40:num <- deaddress 30:&:@:num\n"
" 50:bool <- equal 20:num, 40:num\n"
"]\n"
);
CHECK_TRACE_CONTENTS(
// both calls to new returned identical addresses
"mem: storing 1 in location 50\n"
);
}
void test_lookup_of_abandoned_address_raises_error() {
Hide_errors = true;
run(
"def main [\n"
" 1:&:num <- new num:type\n"
" 3:&:num <- copy 1:&:num\n"
" abandon 1:&:num\n"
" 5:num/raw <- copy *3:&:num\n"
"]\n"
);
CHECK_TRACE_CONTENTS(
"error: main: address is already abandoned in '5:num/raw <- copy *3:&:num'\n"
);
}