263 lines
6.7 KiB
C++
Executable File
263 lines
6.7 KiB
C++
Executable File
#include "master.hpp"
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namespace factor
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{
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void factor_vm::init_card_decks()
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{
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cards_offset = (cell)data->cards - addr_to_card(data->start);
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decks_offset = (cell)data->decks - addr_to_deck(data->start);
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}
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data_heap::data_heap(cell young_size_,
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cell aging_size_,
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cell tenured_size_)
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{
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young_size_ = align(young_size_,deck_size);
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aging_size_ = align(aging_size_,deck_size);
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tenured_size_ = align(tenured_size_,deck_size);
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young_size = young_size_;
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aging_size = aging_size_;
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tenured_size = tenured_size_;
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cell total_size = young_size + 2 * aging_size + tenured_size + deck_size;
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seg = new segment(total_size,false);
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cell cards_size = addr_to_card(total_size);
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cards = new card[cards_size];
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cards_end = cards + cards_size;
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memset(cards,0,cards_size);
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cell decks_size = addr_to_deck(total_size);
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decks = new card_deck[decks_size];
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decks_end = decks + decks_size;
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memset(decks,0,decks_size);
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start = align(seg->start,deck_size);
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tenured = new tenured_space(tenured_size,start);
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aging = new aging_space(aging_size,tenured->end);
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aging_semispace = new aging_space(aging_size,aging->end);
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nursery = new nursery_space(young_size,aging_semispace->end);
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assert(seg->end - nursery->end <= deck_size);
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}
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data_heap::~data_heap()
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{
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delete seg;
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delete nursery;
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delete aging;
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delete aging_semispace;
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delete tenured;
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delete[] cards;
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delete[] decks;
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}
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data_heap *data_heap::grow(cell requested_bytes)
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{
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cell new_tenured_size = (tenured_size * 2) + requested_bytes;
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return new data_heap(young_size,
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aging_size,
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new_tenured_size);
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}
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template<typename Generation> void data_heap::clear_cards(Generation *gen)
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{
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cell first_card = addr_to_card(gen->start - start);
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cell last_card = addr_to_card(gen->end - start);
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memset(&cards[first_card],0,last_card - first_card);
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}
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template<typename Generation> void data_heap::clear_decks(Generation *gen)
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{
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cell first_deck = addr_to_deck(gen->start - start);
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cell last_deck = addr_to_deck(gen->end - start);
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memset(&decks[first_deck],0,last_deck - first_deck);
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}
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void data_heap::reset_generation(nursery_space *gen)
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{
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gen->here = gen->start;
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}
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void data_heap::reset_generation(aging_space *gen)
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{
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gen->here = gen->start;
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clear_cards(gen);
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clear_decks(gen);
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gen->starts.clear_object_start_offsets();
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}
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void data_heap::reset_generation(tenured_space *gen)
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{
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clear_cards(gen);
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clear_decks(gen);
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}
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bool data_heap::high_fragmentation_p()
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{
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return (tenured->largest_free_block() <= nursery->size + aging->size);
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}
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bool data_heap::low_memory_p()
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{
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return (tenured->free_space() <= nursery->size + aging->size);
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}
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void data_heap::mark_all_cards()
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{
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memset(cards,-1,cards_end - cards);
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memset(decks,-1,decks_end - decks);
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}
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void factor_vm::set_data_heap(data_heap *data_)
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{
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data = data_;
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nursery = *data->nursery;
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init_card_decks();
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}
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void factor_vm::init_data_heap(cell young_size, cell aging_size, cell tenured_size)
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{
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set_data_heap(new data_heap(young_size,aging_size,tenured_size));
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}
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/* Size of the object pointed to by an untagged pointer */
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cell object::size() const
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{
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if(free_p()) return ((free_heap_block *)this)->size();
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switch(type())
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{
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case ARRAY_TYPE:
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return align(array_size((array*)this),data_alignment);
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case BIGNUM_TYPE:
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return align(array_size((bignum*)this),data_alignment);
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case BYTE_ARRAY_TYPE:
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return align(array_size((byte_array*)this),data_alignment);
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case STRING_TYPE:
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return align(string_size(string_capacity((string*)this)),data_alignment);
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case TUPLE_TYPE:
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{
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tuple_layout *layout = (tuple_layout *)UNTAG(((tuple *)this)->layout);
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return align(tuple_size(layout),data_alignment);
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}
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case QUOTATION_TYPE:
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return align(sizeof(quotation),data_alignment);
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case WORD_TYPE:
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return align(sizeof(word),data_alignment);
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case FLOAT_TYPE:
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return align(sizeof(boxed_float),data_alignment);
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case DLL_TYPE:
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return align(sizeof(dll),data_alignment);
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case ALIEN_TYPE:
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return align(sizeof(alien),data_alignment);
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case WRAPPER_TYPE:
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return align(sizeof(wrapper),data_alignment);
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case CALLSTACK_TYPE:
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return align(callstack_size(untag_fixnum(((callstack *)this)->length)),data_alignment);
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default:
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critical_error("Invalid header",(cell)this);
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return 0; /* can't happen */
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}
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}
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/* The number of cells from the start of the object which should be scanned by
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the GC. Some types have a binary payload at the end (string, word, DLL) which
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we ignore. */
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cell object::binary_payload_start() const
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{
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if(free_p()) return 0;
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switch(type())
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{
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/* these objects do not refer to other objects at all */
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case FLOAT_TYPE:
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case BYTE_ARRAY_TYPE:
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case BIGNUM_TYPE:
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case CALLSTACK_TYPE:
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return 0;
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/* these objects have some binary data at the end */
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case WORD_TYPE:
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return sizeof(word) - sizeof(cell) * 3;
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case ALIEN_TYPE:
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return sizeof(cell) * 3;
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case DLL_TYPE:
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return sizeof(cell) * 2;
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case QUOTATION_TYPE:
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return sizeof(quotation) - sizeof(cell) * 2;
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case STRING_TYPE:
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return sizeof(string);
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/* everything else consists entirely of pointers */
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case ARRAY_TYPE:
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return array_size<array>(array_capacity((array*)this));
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case TUPLE_TYPE:
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return tuple_size(untag<tuple_layout>(((tuple *)this)->layout));
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case WRAPPER_TYPE:
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return sizeof(wrapper);
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default:
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critical_error("Invalid header",(cell)this);
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return 0; /* can't happen */
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}
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}
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data_heap_room factor_vm::data_room()
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{
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data_heap_room room;
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room.nursery_size = nursery.size;
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room.nursery_occupied = nursery.occupied_space();
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room.nursery_free = nursery.free_space();
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room.aging_size = data->aging->size;
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room.aging_occupied = data->aging->occupied_space();
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room.aging_free = data->aging->free_space();
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room.tenured_size = data->tenured->size;
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room.tenured_occupied = data->tenured->occupied_space();
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room.tenured_total_free = data->tenured->free_space();
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room.tenured_contiguous_free = data->tenured->largest_free_block();
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room.tenured_free_block_count = data->tenured->free_block_count();
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room.cards = data->cards_end - data->cards;
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room.decks = data->decks_end - data->decks;
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room.mark_stack = mark_stack.capacity() * sizeof(cell);
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return room;
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}
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void factor_vm::primitive_data_room()
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{
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data_heap_room room = data_room();
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ctx->push(tag<byte_array>(byte_array_from_value(&room)));
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}
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struct object_accumulator {
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cell type;
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std::vector<cell> objects;
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explicit object_accumulator(cell type_) : type(type_) {}
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void operator()(object *obj)
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{
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if(type == TYPE_COUNT || obj->type() == type)
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objects.push_back(tag_dynamic(obj));
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}
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};
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cell factor_vm::instances(cell type)
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{
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object_accumulator accum(type);
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each_object(accum);
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return std_vector_to_array(accum.objects);
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}
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void factor_vm::primitive_all_instances()
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{
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primitive_full_gc();
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ctx->push(instances(TYPE_COUNT));
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}
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}
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