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386 lines
12 KiB
C++
386 lines
12 KiB
C++
//
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// AppleII.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 14/04/2018.
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// Copyright © 2018 Thomas Harte. All rights reserved.
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//
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#include "AppleII.hpp"
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#include "../ConfigurationTarget.hpp"
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#include "../CRTMachine.hpp"
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#include "../KeyboardMachine.hpp"
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#include "../Utility/MemoryFuzzer.hpp"
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#include "../../Processors/6502/6502.hpp"
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#include "../../Components/AudioToggle/AudioToggle.hpp"
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#include "../../Outputs/Speaker/Implementation/LowpassSpeaker.hpp"
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#include "Card.hpp"
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#include "DiskIICard.hpp"
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#include "Video.hpp"
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#include "../../Analyser/Static/AppleII/Target.hpp"
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#include <memory>
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namespace {
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class ConcreteMachine:
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public CRTMachine::Machine,
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public ConfigurationTarget::Machine,
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public KeyboardMachine::Machine,
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public CPU::MOS6502::BusHandler,
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public Inputs::Keyboard,
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public AppleII::Machine {
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private:
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struct VideoBusHandler : public AppleII::Video::BusHandler {
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public:
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VideoBusHandler(uint8_t *ram) : ram_(ram) {}
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uint8_t perform_read(uint16_t address) {
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return ram_[address];
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}
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private:
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uint8_t *ram_;
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};
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CPU::MOS6502::Processor<ConcreteMachine, false> m6502_;
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VideoBusHandler video_bus_handler_;
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std::unique_ptr<AppleII::Video::Video<VideoBusHandler>> video_;
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int cycles_into_current_line_ = 0;
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Cycles cycles_since_video_update_;
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void update_video() {
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video_->run_for(cycles_since_video_update_.flush());
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}
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static const int audio_divider = 8;
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void update_audio() {
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speaker_.run_for(audio_queue_, cycles_since_audio_update_.divide(Cycles(audio_divider)));
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}
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void update_cards() {
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for(int c = 0; c < 7; ++c) {
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if(cards_[c]) cards_[c]->run_for(cycles_since_card_update_, stretched_cycles_since_card_update_);
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}
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cycles_since_card_update_ = 0;
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stretched_cycles_since_card_update_ = 0;
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}
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uint8_t ram_[65536], aux_ram_[65536];
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std::vector<uint8_t> apple2_rom_, apple2plus_rom_, rom_;
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std::vector<uint8_t> character_rom_;
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uint8_t keyboard_input_ = 0x00;
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Concurrency::DeferringAsyncTaskQueue audio_queue_;
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Audio::Toggle audio_toggle_;
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Outputs::Speaker::LowpassSpeaker<Audio::Toggle> speaker_;
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Cycles cycles_since_audio_update_;
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ROMMachine::ROMFetcher rom_fetcher_;
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std::unique_ptr<AppleII::Card> cards_[7];
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Cycles cycles_since_card_update_;
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int stretched_cycles_since_card_update_ = 0;
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struct MemoryBlock {
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uint8_t *read_pointer = nullptr;
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uint8_t *write_pointer = nullptr;
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} memory_blocks_[4]; // The IO page isn't included.
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// MARK: - The language card.
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struct {
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bool bank1 = false;
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bool read = false;
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bool pre_write = false;
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bool write = false;
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} language_card_;
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bool has_language_card_ = true;
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void set_language_card_paging() {
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if(has_language_card_ && !language_card_.write) {
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memory_blocks_[2].write_pointer = &ram_[48*1024 + (language_card_.bank1 ? 0x1000 : 0x0000)];
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memory_blocks_[3].write_pointer = &ram_[56*1024];
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} else {
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memory_blocks_[2].write_pointer = memory_blocks_[3].write_pointer = nullptr;
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}
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if(has_language_card_ && language_card_.read) {
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memory_blocks_[2].read_pointer = &ram_[48*1024 + (language_card_.bank1 ? 0x1000 : 0x0000)];
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memory_blocks_[3].read_pointer = &ram_[56*1024];
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} else {
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memory_blocks_[2].read_pointer = rom_.data();
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memory_blocks_[3].read_pointer = rom_.data() + 0x1000;
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}
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}
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public:
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ConcreteMachine():
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m6502_(*this),
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video_bus_handler_(ram_),
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audio_toggle_(audio_queue_),
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speaker_(audio_toggle_) {
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// The system's master clock rate.
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const float master_clock = 14318180.0;
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// This is where things get slightly convoluted: establish the machine as having a clock rate
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// equal to the number of cycles of work the 6502 will actually achieve. Which is less than
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// the master clock rate divided by 14 because every 65th cycle is extended by one seventh.
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set_clock_rate((master_clock / 14.0) * 65.0 / (65.0 + 1.0 / 7.0));
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// The speaker, however, should think it is clocked at half the master clock, per a general
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// decision to sample it at seven times the CPU clock (plus stretches).
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speaker_.set_input_rate(static_cast<float>(master_clock / (2.0 * static_cast<float>(audio_divider))));
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// Also, start with randomised memory contents.
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Memory::Fuzz(ram_, sizeof(ram_));
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}
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~ConcreteMachine() {
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audio_queue_.flush();
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}
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void setup_output(float aspect_ratio) override {
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video_.reset(new AppleII::Video::Video<VideoBusHandler>(video_bus_handler_));
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video_->set_character_rom(character_rom_);
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}
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void close_output() override {
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video_.reset();
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}
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Outputs::CRT::CRT *get_crt() override {
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return video_->get_crt();
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}
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Outputs::Speaker::Speaker *get_speaker() override {
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return &speaker_;
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}
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Cycles perform_bus_operation(CPU::MOS6502::BusOperation operation, uint16_t address, uint8_t *value) {
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++ cycles_since_video_update_;
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++ cycles_since_card_update_;
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cycles_since_audio_update_ += Cycles(7);
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/*
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There are five distinct zones of memory on an Apple II:
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0000 — 0200 : the zero and stack pages, which can be paged independently on a IIe
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0200 — c000 : the main block of RAM, which can be paged on a IIe
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c000 — d000 : the IO area, including card ROMs
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d000 — e000 : the low ROM area, which can contain indepdently-paged RAM with a language card
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e000 — : the rest of ROM, also potentially replaced with RAM by a language card
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*/
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MemoryBlock *block = nullptr;
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if(address < 0x200) block = &memory_blocks_[0];
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else if(address < 0xc000) {
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if(address < 0x6000 && !isReadOperation(operation)) update_video();
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block = &memory_blocks_[1];
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address -= 0x200;
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}
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else if(address < 0xd000) block = nullptr;
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else if(address < 0xe000) {block = &memory_blocks_[2]; address -= 0xd000; }
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else {block = &memory_blocks_[3]; address -= 0xe000; }
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if(block) {
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if(isReadOperation(operation)) *value = block->read_pointer[address];
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else if(block->write_pointer) block->write_pointer[address] = *value;
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} else {
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switch(address) {
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default:
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if(isReadOperation(operation)) {
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// Read-only switches.
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switch(address) {
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default: break;
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case 0xc000:
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*value = keyboard_input_;
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break;
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}
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} else {
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// Write-only switches.
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}
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break;
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/* Read-write switches. */
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case 0xc050: update_video(); video_->set_graphics_mode(); break;
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case 0xc051: update_video(); video_->set_text_mode(); break;
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case 0xc052: update_video(); video_->set_mixed_mode(false); break;
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case 0xc053: update_video(); video_->set_mixed_mode(true); break;
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case 0xc054: update_video(); video_->set_video_page(0); break;
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case 0xc055: update_video(); video_->set_video_page(1); break;
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case 0xc056: update_video(); video_->set_low_resolution(); break;
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case 0xc057: update_video(); video_->set_high_resolution(); break;
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case 0xc010:
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keyboard_input_ &= 0x7f;
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break;
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case 0xc030:
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update_audio();
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audio_toggle_.set_output(!audio_toggle_.get_output());
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break;
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case 0xc080: case 0xc084: case 0xc088: case 0xc08c:
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case 0xc081: case 0xc085: case 0xc089: case 0xc08d:
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case 0xc082: case 0xc086: case 0xc08a: case 0xc08e:
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case 0xc083: case 0xc087: case 0xc08b: case 0xc08f:
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// Quotes below taken from Understanding the Apple II, p. 5-28 and 5-29.
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// "A3 controls the 4K bank selection"
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language_card_.bank1 = (address&8);
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// "Access to $C080, $C083, $C084, $0087, $C088, $C08B, $C08C, or $C08F sets the READ ENABLE flip-flop"
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// (other accesses reset it)
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language_card_.read = !(((address&2) >> 1) ^ (address&1));
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// "The WRITE ENABLE' flip-flop is reset by an odd read access to the $C08X range when the PRE-WRITE flip-flop is set."
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if(language_card_.pre_write && isReadOperation(operation) && (address&1)) language_card_.write = false;
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// "[The WRITE ENABLE' flip-flop] is set by an even access in the $C08X range."
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if(!(address&1)) language_card_.write = true;
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// ("Any other type of access causes the WRITE ENABLE' flip-flop to hold its current state.")
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// "The PRE-WRITE flip-flop is set by an odd read access in the $C08X range. It is reset by an even access or a write access."
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language_card_.pre_write = isReadOperation(operation) ? (address&1) : false;
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set_language_card_paging();
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break;
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}
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if(address >= 0xc100 && address < 0xc800) {
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/*
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Decode the area conventionally used by cards for ROMs:
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0xCn00 — 0xCnff: card n.
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*/
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const int card_number = (address - 0xc100) >> 8;
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if(cards_[card_number]) {
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update_cards();
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cards_[card_number]->perform_bus_operation(operation, address & 0xff, value);
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}
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} else if(address >= 0xc090 && address < 0xc100) {
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/*
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Decode the area conventionally used by cards for registers:
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C0n0--C0nF: card n - 8.
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*/
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const int card_number = (address - 0xc090) >> 4;
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if(cards_[card_number]) {
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update_cards();
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cards_[card_number]->perform_bus_operation(operation, 0x100 | (address&0xf), value);
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}
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}
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}
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// The Apple II has a slightly weird timing pattern: every 65th CPU cycle is stretched
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// by an extra 1/7th. That's because one cycle lasts 3.5 NTSC colour clocks, so after
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// 65 cycles a full line of 227.5 colour clocks have passed. But the high-rate binary
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// signal approximation that produces colour needs to be in phase, so a stretch of exactly
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// 0.5 further colour cycles is added. The video class handles that implicitly, but it
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// needs to be accumulated here for the audio.
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cycles_into_current_line_ = (cycles_into_current_line_ + 1) % 65;
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if(!cycles_into_current_line_) {
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++ cycles_since_audio_update_;
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++ stretched_cycles_since_card_update_;
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}
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return Cycles(1);
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}
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void flush() {
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update_video();
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update_audio();
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update_cards();
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audio_queue_.perform();
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}
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bool set_rom_fetcher(const ROMMachine::ROMFetcher &roms_with_names) override {
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auto roms = roms_with_names(
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"AppleII",
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{
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"apple2o.rom",
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"apple2.rom",
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"apple2-character.rom"
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});
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if(!roms[0] || !roms[1] || !roms[2]) return false;
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apple2_rom_ = std::move(*roms[0]);
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apple2plus_rom_ = std::move(*roms[1]);
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character_rom_ = std::move(*roms[2]);
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rom_fetcher_ = roms_with_names;
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return true;
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}
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void run_for(const Cycles cycles) override {
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m6502_.run_for(cycles);
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}
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void set_key_pressed(Key key, char value, bool is_pressed) override {
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if(key == Key::F12) {
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m6502_.set_reset_line(is_pressed);
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return;
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}
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if(is_pressed) {
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// If no ASCII value is supplied, look for a few special cases.
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if(!value) {
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switch(key) {
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case Key::Left: value = 8; break;
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case Key::Right: value = 21; break;
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case Key::Down: value = 10; break;
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default: break;
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}
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}
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keyboard_input_ = static_cast<uint8_t>(value | 0x80);
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}
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}
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Inputs::Keyboard &get_keyboard() override {
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return *this;
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}
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// MARK: ConfigurationTarget
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void configure_as_target(const Analyser::Static::Target *target) override {
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using Target = Analyser::Static::AppleII::Target;
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auto *const apple_target = dynamic_cast<const Target *>(target);
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if(apple_target->disk_controller != Target::DiskController::None) {
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cards_[5].reset(new AppleII::DiskIICard(rom_fetcher_, apple_target->disk_controller == Target::DiskController::SixteenSector));
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}
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rom_ = (apple_target->model == Target::Model::II) ? apple2_rom_ : apple2plus_rom_;
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if(rom_.size() > 12*1024) {
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rom_.erase(rom_.begin(), rom_.begin() + static_cast<off_t>(rom_.size()) - 12*1024);
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}
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// Set up the default memory blocks.
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memory_blocks_[0].read_pointer = memory_blocks_[0].write_pointer = ram_;
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memory_blocks_[1].read_pointer = memory_blocks_[1].write_pointer = &ram_[0x200];
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set_language_card_paging();
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insert_media(apple_target->media);
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}
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bool insert_media(const Analyser::Static::Media &media) override {
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if(!media.disks.empty() && cards_[5]) {
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dynamic_cast<AppleII::DiskIICard *>(cards_[5].get())->set_disk(media.disks[0], 0);
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}
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return true;
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}
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};
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}
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using namespace AppleII;
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Machine *Machine::AppleII() {
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return new ConcreteMachine;
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}
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Machine::~Machine() {}
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