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41f3c29e30
Some glitches remain to be ironed out.
560 lines
17 KiB
C++
560 lines
17 KiB
C++
//
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// AtariST.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 03/10/2019.
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// Copyright © 2019 Thomas Harte. All rights reserved.
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//
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#include "AtariST.hpp"
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#include "../CRTMachine.hpp"
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#include "../KeyboardMachine.hpp"
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#include "../MouseMachine.hpp"
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#include "../MediaTarget.hpp"
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#include "../../Activity/Source.hpp"
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//#define LOG_TRACE
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#include "../../Processors/68000/68000.hpp"
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#include "../../Components/AY38910/AY38910.hpp"
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#include "../../Components/68901/MFP68901.hpp"
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#include "../../Components/6850/6850.hpp"
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#include "DMAController.hpp"
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#include "IntelligentKeyboard.hpp"
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#include "Video.hpp"
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#include "../../ClockReceiver/JustInTime.hpp"
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#include "../../ClockReceiver/ForceInline.hpp"
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#include "../../Outputs/Speaker/Implementation/LowpassSpeaker.hpp"
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#include "../../Outputs/Log.hpp"
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#include "../Utility/MemoryPacker.hpp"
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#include "../Utility/MemoryFuzzer.hpp"
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namespace Atari {
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namespace ST {
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const int CLOCK_RATE = 8021247;
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using Target = Analyser::Static::Target;
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class ConcreteMachine:
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public Atari::ST::Machine,
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public CPU::MC68000::BusHandler,
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public CRTMachine::Machine,
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public ClockingHint::Observer,
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public Motorola::ACIA::ACIA::InterruptDelegate,
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public Motorola::MFP68901::MFP68901::InterruptDelegate,
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public DMAController::Delegate,
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public MouseMachine::Machine,
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public KeyboardMachine::MappedMachine,
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public Activity::Source,
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public MediaTarget::Machine,
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public GI::AY38910::PortHandler {
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public:
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ConcreteMachine(const Target &target, const ROMMachine::ROMFetcher &rom_fetcher) :
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mc68000_(*this),
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keyboard_acia_(Cycles(500000)),
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midi_acia_(Cycles(500000)),
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ay_(audio_queue_),
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speaker_(ay_),
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ikbd_(keyboard_acia_->transmit, keyboard_acia_->receive) {
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set_clock_rate(CLOCK_RATE);
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speaker_.set_input_rate(CLOCK_RATE / 4);
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ram_.resize(512 * 512); // i.e. 512kb
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video_->set_ram(ram_.data(), ram_.size());
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Memory::Fuzz(ram_);
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std::vector<ROMMachine::ROM> rom_descriptions = {
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{"AtariST", "the TOS ROM", "tos100.img", 192*1024, 0x1a586c64}
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};
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const auto roms = rom_fetcher(rom_descriptions);
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if(!roms[0]) {
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throw ROMMachine::Error::MissingROMs;
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}
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Memory::PackBigEndian16(*roms[0], rom_);
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// Set up basic memory map.
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memory_map_[0] = BusDevice::MostlyRAM;
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int c = 1;
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for(; c < 0x08; ++c) memory_map_[c] = BusDevice::RAM;
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for(; c < 0xff; ++c) memory_map_[c] = BusDevice::Unassigned;
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const bool is_early_tos = true;
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if(is_early_tos) {
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for(c = 0xfc; c < 0xff; ++c) memory_map_[c] = BusDevice::ROM;
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} else {
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for(c = 0xe0; c < 0xe4; ++c) memory_map_[c] = BusDevice::ROM;
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}
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memory_map_[0xfa] = memory_map_[0xfb] = BusDevice::Cartridge;
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memory_map_[0xff] = BusDevice::IO;
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midi_acia_->set_interrupt_delegate(this);
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keyboard_acia_->set_interrupt_delegate(this);
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midi_acia_->set_clocking_hint_observer(this);
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keyboard_acia_->set_clocking_hint_observer(this);
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ikbd_.set_clocking_hint_observer(this);
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mfp_->set_clocking_hint_observer(this);
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dma_->set_clocking_hint_observer(this);
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mfp_->set_interrupt_delegate(this);
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dma_->set_delegate(this);
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ay_.set_port_handler(this);
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set_gpip_input();
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// Insert any supplied media.
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insert_media(target.media);
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}
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~ConcreteMachine() {
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audio_queue_.flush();
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}
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// MARK: CRTMachine::Machine
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void set_scan_target(Outputs::Display::ScanTarget *scan_target) final {
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video_->set_scan_target(scan_target);
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}
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Outputs::Speaker::Speaker *get_speaker() final {
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return &speaker_;
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}
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void run_for(const Cycles cycles) final {
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// Give the keyboard an opportunity to consume any events.
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if(!keyboard_needs_clock_) {
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ikbd_.run_for(HalfCycles(0));
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}
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mc68000_.run_for(cycles);
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}
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// MARK: MC68000::BusHandler
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using Microcycle = CPU::MC68000::Microcycle;
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HalfCycles perform_bus_operation(const CPU::MC68000::Microcycle &cycle, int is_supervisor) {
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// Just in case the last cycle was an interrupt acknowledge or bus error. TODO: find a better solution?
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mc68000_.set_is_peripheral_address(false);
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mc68000_.set_bus_error(false);
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// Advance time.
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advance_time(cycle.length);
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// A null cycle leaves nothing else to do.
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if(!(cycle.operation & (Microcycle::NewAddress | Microcycle::SameAddress))) return HalfCycles(0);
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/* TODO: DTack, bus error, VPA. */
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// An interrupt acknowledge, perhaps?
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if(cycle.operation & Microcycle::InterruptAcknowledge) {
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// Current implementation: everything other than 6 (i.e. the MFP is autovectored.
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if((cycle.word_address()&7) != 6) {
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mc68000_.set_is_peripheral_address(true);
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return HalfCycles(0);
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} else {
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if(cycle.operation & Microcycle::SelectByte) {
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const int interrupt = mfp_->acknowledge_interrupt();
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if(interrupt != Motorola::MFP68901::MFP68901::NoAcknowledgement) {
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cycle.value->halves.low = uint8_t(interrupt);
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} else {
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// TODO: this should take a while. Find out how long.
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mc68000_.set_bus_error(true);
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}
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}
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return HalfCycles(0);
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}
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}
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auto address = cycle.word_address();
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// if(cycle.data_select_active()) printf("%c %06x\n", (cycle.operation & Microcycle::Read) ? 'r' : 'w', *cycle.address & 0xffffff);
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uint16_t *memory;
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switch(memory_map_[address >> 15]) {
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case BusDevice::MostlyRAM:
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if(address < 4) {
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memory = rom_.data();
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break;
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}
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case BusDevice::RAM:
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memory = ram_.data();
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address &= ram_.size() - 1;
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// TODO: align with the next access window.
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break;
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case BusDevice::ROM:
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memory = rom_.data();
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address %= rom_.size();
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break;
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case BusDevice::Unassigned:
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// TODO: figure out the rules about bus errors.
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case BusDevice::Cartridge:
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/*
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TOS 1.0 appears to attempt to read from the catridge before it has setup
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the bus error vector. Therefore I assume no bus error flows.
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*/
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switch(cycle.operation & (Microcycle::SelectWord | Microcycle::SelectByte | Microcycle::Read)) {
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default: break;
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case Microcycle::SelectWord | Microcycle::Read:
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*cycle.value = 0xffff;
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break;
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case Microcycle::SelectByte | Microcycle::Read:
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cycle.value->halves.low = 0xff;
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break;
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}
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return HalfCycles(0);
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case BusDevice::IO:
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switch(address) {
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default:
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// assert(false);
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case 0x7fc000:
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/* Memory controller configuration:
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b0, b1: bank 1
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b2, b3: bank 0
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00 = 128k
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01 = 512k
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10 = 2mb
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11 = reserved
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*/
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break;
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case 0x7fc400: /* PSG: write to select register, read to read register. */
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case 0x7fc401: /* PSG: write to write register. */
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if(!cycle.data_select_active()) return HalfCycles(0);
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advance_time(HalfCycles(2));
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update_audio();
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if(cycle.operation & Microcycle::Read) {
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ay_.set_control_lines(GI::AY38910::ControlLines(GI::AY38910::BC2 | GI::AY38910::BC1));
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cycle.set_value8_high(ay_.get_data_output());
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ay_.set_control_lines(GI::AY38910::ControlLines(0));
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} else {
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if(address == 0x7fc400) {
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ay_.set_control_lines(GI::AY38910::BC1);
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} else {
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ay_.set_control_lines(GI::AY38910::ControlLines(GI::AY38910::BC2 | GI::AY38910::BDIR));
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}
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ay_.set_data_input(cycle.value8_high());
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ay_.set_control_lines(GI::AY38910::ControlLines(0));
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}
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return HalfCycles(2);
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// The MFP block:
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case 0x7ffd00: case 0x7ffd01: case 0x7ffd02: case 0x7ffd03:
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case 0x7ffd04: case 0x7ffd05: case 0x7ffd06: case 0x7ffd07:
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case 0x7ffd08: case 0x7ffd09: case 0x7ffd0a: case 0x7ffd0b:
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case 0x7ffd0c: case 0x7ffd0d: case 0x7ffd0e: case 0x7ffd0f:
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case 0x7ffd10: case 0x7ffd11: case 0x7ffd12: case 0x7ffd13:
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case 0x7ffd14: case 0x7ffd15: case 0x7ffd16: case 0x7ffd17:
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case 0x7ffd18: case 0x7ffd19: case 0x7ffd1a: case 0x7ffd1b:
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case 0x7ffd1c: case 0x7ffd1d: case 0x7ffd1e: case 0x7ffd1f:
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if(!cycle.data_select_active()) return HalfCycles(0);
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if(cycle.operation & Microcycle::Read) {
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cycle.set_value8_low(mfp_->read(int(address)));
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} else {
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mfp_->write(int(address), cycle.value8_low());
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}
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break;
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// Video controls.
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case 0x7fc100: case 0x7fc101: case 0x7fc102: case 0x7fc103:
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case 0x7fc104: case 0x7fc105: case 0x7fc106: case 0x7fc107:
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case 0x7fc108: case 0x7fc109: case 0x7fc10a: case 0x7fc10b:
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case 0x7fc10c: case 0x7fc10d: case 0x7fc10e: case 0x7fc10f:
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case 0x7fc110: case 0x7fc111: case 0x7fc112: case 0x7fc113:
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case 0x7fc114: case 0x7fc115: case 0x7fc116: case 0x7fc117:
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case 0x7fc118: case 0x7fc119: case 0x7fc11a: case 0x7fc11b:
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case 0x7fc11c: case 0x7fc11d: case 0x7fc11e: case 0x7fc11f:
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case 0x7fc120: case 0x7fc121: case 0x7fc122: case 0x7fc123:
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case 0x7fc124: case 0x7fc125: case 0x7fc126: case 0x7fc127:
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case 0x7fc128: case 0x7fc129: case 0x7fc12a: case 0x7fc12b:
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case 0x7fc12c: case 0x7fc12d: case 0x7fc12e: case 0x7fc12f:
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case 0x7fc130: case 0x7fc131:
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if(!cycle.data_select_active()) return HalfCycles(0);
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if(cycle.operation & Microcycle::Read) {
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cycle.set_value16(video_->read(int(address)));
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} else {
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video_->write(int(address), cycle.value16());
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}
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break;
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// ACIAs.
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case 0x7ffe00: case 0x7ffe01: case 0x7ffe02: case 0x7ffe03: {
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// Set VPA.
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mc68000_.set_is_peripheral_address(!cycle.data_select_active());
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if(!cycle.data_select_active()) return HalfCycles(0);
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const auto acia_ = (address < 0x7ffe02) ? &keyboard_acia_ : &midi_acia_;
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if(cycle.operation & Microcycle::Read) {
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cycle.set_value8_high((*acia_)->read(int(address)));
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} else {
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(*acia_)->write(int(address), cycle.value8_high());
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}
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} break;
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// DMA.
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case 0x7fc302: case 0x7fc303: case 0x7fc304: case 0x7fc305: case 0x7fc306:
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if(!cycle.data_select_active()) return HalfCycles(0);
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if(cycle.operation & Microcycle::Read) {
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cycle.set_value16(dma_->read(int(address)));
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} else {
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dma_->write(int(address), cycle.value16());
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}
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break;
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}
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return HalfCycles(0);
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}
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// If control has fallen through to here, the access is either a read from ROM, or a read or write to RAM.
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switch(cycle.operation & (Microcycle::SelectWord | Microcycle::SelectByte | Microcycle::Read)) {
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default:
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break;
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case Microcycle::SelectWord | Microcycle::Read:
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cycle.value->full = memory[address];
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break;
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case Microcycle::SelectByte | Microcycle::Read:
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cycle.value->halves.low = uint8_t(memory[address] >> cycle.byte_shift());
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break;
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case Microcycle::SelectWord:
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memory[address] = cycle.value->full;
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break;
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case Microcycle::SelectByte:
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memory[address] = uint16_t(
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(cycle.value->halves.low << cycle.byte_shift()) |
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(memory[address] & cycle.untouched_byte_mask())
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);
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break;
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}
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return HalfCycles(0);
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}
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void flush() {
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dma_.flush();
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mfp_.flush();
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keyboard_acia_.flush();
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midi_acia_.flush();
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video_.flush();
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update_audio();
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audio_queue_.perform();
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}
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private:
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forceinline void advance_time(HalfCycles length) {
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// Advance the relevant counters.
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cycles_since_audio_update_ += length;
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mfp_ += length;
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dma_ += length;
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keyboard_acia_ += length;
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midi_acia_ += length;
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// Don't even count time for the keyboard unless it has requested it.
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if(keyboard_needs_clock_) {
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cycles_since_ikbd_update_ += length;
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ikbd_.run_for(cycles_since_ikbd_update_.divide(HalfCycles(512)));
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}
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// Flush anything that needs real-time updating.
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if(!may_defer_acias_) {
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keyboard_acia_.flush();
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midi_acia_.flush();
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}
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if(mfp_is_realtime_) {
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mfp_.flush();
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}
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if(dma_is_realtime_) {
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dma_.flush();
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}
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// Update the video output, checking whether a sequence point has been hit.
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while(length >= cycles_until_video_event_) {
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length -= cycles_until_video_event_;
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video_ += cycles_until_video_event_;
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cycles_until_video_event_ = video_->get_next_sequence_point();
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mfp_->set_timer_event_input(1, video_->display_enabled());
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update_interrupt_input();
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}
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cycles_until_video_event_ -= length;
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video_ += length;
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}
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void update_audio() {
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speaker_.run_for(audio_queue_, cycles_since_audio_update_.divide_cycles(Cycles(4)));
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}
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CPU::MC68000::Processor<ConcreteMachine, true> mc68000_;
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JustInTimeActor<Video> video_;
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HalfCycles cycles_until_video_event_;
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// The MFP runs at 819200/2673749ths of the CPU clock rate.
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JustInTimeActor<Motorola::MFP68901::MFP68901, 819200, 2673749> mfp_;
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JustInTimeActor<Motorola::ACIA::ACIA, 16> keyboard_acia_;
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JustInTimeActor<Motorola::ACIA::ACIA, 16> midi_acia_;
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Concurrency::DeferringAsyncTaskQueue audio_queue_;
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GI::AY38910::AY38910 ay_;
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Outputs::Speaker::LowpassSpeaker<GI::AY38910::AY38910> speaker_;
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HalfCycles cycles_since_audio_update_;
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JustInTimeActor<DMAController> dma_;
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HalfCycles cycles_since_ikbd_update_;
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IntelligentKeyboard ikbd_;
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std::vector<uint16_t> ram_;
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std::vector<uint16_t> rom_;
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enum class BusDevice {
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MostlyRAM, RAM, ROM, Cartridge, IO, Unassigned
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};
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BusDevice memory_map_[256];
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// MARK: - Clocking Management.
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bool may_defer_acias_ = true;
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bool keyboard_needs_clock_ = false;
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bool mfp_is_realtime_ = false;
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bool dma_is_realtime_ = false;
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void set_component_prefers_clocking(ClockingHint::Source *component, ClockingHint::Preference clocking) final {
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// This is being called by one of the components; avoid any time flushing here as that's
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// already dealt with (and, just to be absolutely sure, to avoid recursive mania).
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may_defer_acias_ =
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(keyboard_acia_.last_valid()->preferred_clocking() != ClockingHint::Preference::RealTime) &&
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(midi_acia_.last_valid()->preferred_clocking() != ClockingHint::Preference::RealTime);
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keyboard_needs_clock_ = ikbd_.preferred_clocking() != ClockingHint::Preference::None;
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mfp_is_realtime_ = mfp_.last_valid()->preferred_clocking() == ClockingHint::Preference::RealTime;
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dma_is_realtime_ = dma_.last_valid()->preferred_clocking() == ClockingHint::Preference::RealTime;
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}
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// MARK: - GPIP input.
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void acia6850_did_change_interrupt_status(Motorola::ACIA::ACIA *) final {
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set_gpip_input();
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}
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void dma_controller_did_change_output(DMAController *) final {
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set_gpip_input();
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// Filty hack, here! Should: set the 68000's bus request line. But until
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// that's implemented, just offers magical zero-cost DMA insertion and
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// extrication.
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if(dma_->get_bus_request_line()) {
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dma_->bus_grant(ram_.data(), ram_.size());
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}
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}
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void set_gpip_input() {
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/*
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Atari ST GPIP bits:
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GPIP 7: monochrome monitor detect
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GPIP 6: RS-232 ring indicator
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GPIP 5: FD/HD interrupt
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GPIP 4: keyboard/MIDI interrupt
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GPIP 3: unused
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GPIP 2: RS-232 clear to send
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GPIP 1: RS-232 carrier detect
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GPIP 0: centronics busy
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*/
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|
mfp_->set_port_input(
|
|
0x80 | // b7: Monochrome monitor detect (1 = is monochrome).
|
|
0x40 | // b6: RS-232 ring indicator.
|
|
(dma_->get_interrupt_line() ? 0x00 : 0x20) | // b5: FD/HS interrupt (0 = interrupt requested).
|
|
((keyboard_acia_->get_interrupt_line() || midi_acia_->get_interrupt_line()) ? 0x00 : 0x10) | // b4: Keyboard/MIDI interrupt (0 = interrupt requested).
|
|
0x08 | // b3: Unused
|
|
0x04 | // b2: RS-232 clear to send.
|
|
0x02 | // b1 : RS-232 carrier detect.
|
|
0x00 // b0: Centronics busy (1 = busy).
|
|
);
|
|
}
|
|
|
|
// MARK - MFP input.
|
|
void mfp68901_did_change_interrupt_status(Motorola::MFP68901::MFP68901 *mfp) final {
|
|
update_interrupt_input();
|
|
}
|
|
|
|
void update_interrupt_input() {
|
|
if(mfp_->get_interrupt_line()) {
|
|
mc68000_.set_interrupt_level(6);
|
|
} else if(video_->vsync()) {
|
|
mc68000_.set_interrupt_level(4);
|
|
} else if(video_->hsync()) {
|
|
mc68000_.set_interrupt_level(2);
|
|
} else {
|
|
mc68000_.set_interrupt_level(0);
|
|
}
|
|
}
|
|
|
|
// MARK: - MouseMachine
|
|
Inputs::Mouse &get_mouse() final {
|
|
return ikbd_;
|
|
}
|
|
|
|
// MARK: - KeyboardMachine
|
|
void set_key_state(uint16_t key, bool is_pressed) final {
|
|
ikbd_.set_key_state(Key(key), is_pressed);
|
|
}
|
|
|
|
IntelligentKeyboard::KeyboardMapper keyboard_mapper_;
|
|
KeyboardMapper *get_keyboard_mapper() final {
|
|
return &keyboard_mapper_;
|
|
}
|
|
|
|
// MARK: - AYPortHandler
|
|
void set_port_output(bool port_b, uint8_t value) final {
|
|
if(port_b) {
|
|
// TODO: ?
|
|
} else {
|
|
/*
|
|
TODO: Port A:
|
|
b7: reserved
|
|
b6: "freely usable output (monitor jack)"
|
|
b5: centronics strobe
|
|
b4: RS-232 DTR output
|
|
b3: RS-232 RTS output
|
|
b2: select floppy drive 1
|
|
b1: select floppy drive 0
|
|
b0: "page choice signal for double-sided floppy drive"
|
|
*/
|
|
dma_->set_floppy_drive_selection(!(value & 2), !(value & 4), !(value & 1));
|
|
}
|
|
}
|
|
|
|
// MARK: - MediaTarget
|
|
bool insert_media(const Analyser::Static::Media &media) final {
|
|
size_t c = 0;
|
|
for(const auto &disk: media.disks) {
|
|
dma_->set_floppy_disk(disk, c);
|
|
++c;
|
|
if(c == 2) break;
|
|
}
|
|
return true;
|
|
}
|
|
|
|
// MARK: - Activity Source
|
|
void set_activity_observer(Activity::Observer *observer) override {
|
|
dma_->set_activity_observer(observer);
|
|
}
|
|
};
|
|
|
|
}
|
|
}
|
|
|
|
using namespace Atari::ST;
|
|
|
|
Machine *Machine::AtariST(const Analyser::Static::Target *target, const ROMMachine::ROMFetcher &rom_fetcher) {
|
|
return new ConcreteMachine(*target, rom_fetcher);
|
|
}
|
|
|
|
Machine::~Machine() {}
|