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Starts to bend towards getting some performers in motion.
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@ -61,16 +61,35 @@ template <
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uint64_t max_address,
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/// Indicates the maximum number of potential performers that will be provided.
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uint64_t max_performer_count,
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/// Provides the type of Instruction to
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typename InstructionType
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/// Provides the type of Instruction to expect.
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typename InstructionType,
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/// Indicates whether instructions should be treated as ephemeral or included in the cache.
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bool retain_instructions
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> class CachingExecutor {
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public:
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protected:
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using Performer = void (Executor::*)();
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using PerformerIndex = typename MinIntTypeValue<max_performer_count>::type;
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using ProgramCounterType = typename MinIntTypeValue<max_address>::type;
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// MARK: - Parser call-ins.
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void announce_overflow(ProgramCounterType) {
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/*
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Should be impossible for now; this is intended to provide information
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when page caching.
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*/
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}
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void announce_instruction(ProgramCounterType, InstructionType instruction) {
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// Dutifully map the instruction to a performer and keep it.
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program_.push_back(static_cast<Executor *>(this)->action_for(instruction));
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if constexpr (retain_instructions) {
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// TODO.
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}
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}
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protected:
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// Storage for the statically-allocated list of performers. It's a bit more
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// work for executors to fill this array, but subsequently performers can be
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// indexed by array position, which is a lot more compact than a generic pointer.
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@ -86,37 +105,47 @@ template <
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and doing any translation as is necessary.
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*/
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void set_program_counter(ProgramCounterType address) {
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const auto page = find_page(address);
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const auto entry = page->entry_points.find(address);
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if(entry == page->entry_points.end()) {
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// Requested segment wasn't found; check whether it was
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// within the recently translated list and otherwise
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// translate it.
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}
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// Temporary implementation: just interpret.
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program_.clear();
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static_cast<Executor *>(this)->parse(address, ProgramCounterType(max_address));
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// const auto page = find_page(address);
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// const auto entry = page->entry_points.find(address);
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// if(entry == page->entry_points.end()) {
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// // Requested segment wasn't found; check whether it was
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// // within the recently translated list and otherwise
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// // translate it.
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// }
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}
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private:
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struct Page {
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std::map<ProgramCounterType, PerformerIndex> entry_points;
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std::vector<PerformerIndex> program_;
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/* TODO: almost below here can be shoved off into an LRUCache object, or similar. */
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// static constexpr size_t max_cached_pages = 64;
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// struct Page {
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// std::map<ProgramCounterType, PerformerIndex> entry_points;
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// TODO: can I statically these two? Should I?
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std::vector<PerformerIndex> actions_;
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// std::vector<PerformerIndex> actions_;
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// std::vector<typename std::enable_if<!std::is_same<InstructionType, void>::value, InstructionType>::type> instructions_;
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};
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// };
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// std::array<Page, max_cached_pages> pages_;
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// Maps from page numbers to pages.
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std::unordered_map<ProgramCounterType, Page> cached_pages_;
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// std::unordered_map<ProgramCounterType, Page *> cached_pages_;
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// Maintains an LRU of recently-used pages in case of a need for reuse.
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std::list<ProgramCounterType> touched_pages_;
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// std::list<ProgramCounterType> touched_pages_;
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/*!
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Finds or creates the page that contains @c address.
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*/
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Page *find_page(ProgramCounterType address) {
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/* Page *find_page(ProgramCounterType address) {
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// TODO: are 1kb pages always appropriate? Is 64 the correct amount to keep?
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const auto page_address = address >> 10;
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constexpr size_t max_cached_pages = 64;
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const auto page_address = ProgramCounterType(address >> 10);
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auto page = cached_pages_.find(page_address);
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if(page == cached_pages_.end()) {
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@ -130,7 +159,9 @@ template <
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} else {
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// Page was found; LRU shuffle it.
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}
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}
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return nullptr;
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}*/
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};
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}
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@ -20,6 +20,9 @@ Executor::Executor() {
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const auto instruction = decoder.instrucion_for_opcode(uint8_t(c));
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performers_[c] = performer_lookup_.performer(instruction.operation, instruction.addressing_mode);
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}
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// TODO: read reset vector, etc. This is just the start of ROM.
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set_program_counter(0x1400);
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}
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template <Operation operation, AddressingMode addressing_mode> void Executor::perform() {
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@ -17,15 +17,16 @@ namespace InstructionSet {
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namespace M50740 {
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class Executor;
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using CachingExecutor = CachingExecutor<Executor, 0x1fff, 256, Instruction, false>;
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class Executor: public CachingExecutor<Executor, 0x2000, 256, void> {
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class Executor: public CachingExecutor {
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public:
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Executor();
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private:
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// MARK: - CachingExecutor-facing interface.
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friend CachingExecutor<Executor, 0x2000, 256, void>;
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friend CachingExecutor;
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/*!
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Maps instructions to performers; called by the CachingExecutor and for this instruction set, extremely trivial.
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@ -35,6 +36,14 @@ class Executor: public CachingExecutor<Executor, 0x2000, 256, void> {
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return instruction.opcode;
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}
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/*!
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Parses from @c start and no later than @c max_address, using the CachingExecutor as a target.
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*/
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inline void parse(uint16_t start, uint16_t closing_bound) {
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Parser<Executor, false> parser;
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parser.parse(*this, memory_, start, closing_bound);
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}
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private:
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// MARK: - Internal framework for generator performers.
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@ -20,8 +20,8 @@ template<typename Target, bool include_entries_and_accesses> struct Parser {
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void parse(Target &target, const uint8_t *storage, uint16_t start, uint16_t closing_bound) {
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Decoder decoder;
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while(start != closing_bound) {
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const auto next = decoder.decode(&storage[start], closing_bound - start);
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while(start <= closing_bound) {
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const auto next = decoder.decode(&storage[start], 1 + closing_bound - start);
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if(next.first <= 0) {
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// If there weren't enough bytes left before the closing bound to complete
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// an instruction, but implicitly there were some bytes left, announce overflow
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@ -36,7 +36,7 @@ template<typename Target, bool include_entries_and_accesses> struct Parser {
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// Do a simplified test: is this a terminating operation?
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switch(next.second.operation) {
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case Operation::RTS: case Operation::RTI: case Operation::BRK:
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case Operation::JMP: case Operation::BRA:
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case Operation::JMP: case Operation::BRA:
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return;
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default: break;
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