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CLK/Machines/Apple/AppleII/AppleII.cpp

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//
// AppleII.cpp
// Clock Signal
//
// Created by Thomas Harte on 14/04/2018.
// Copyright 2018 Thomas Harte. All rights reserved.
//
#include "AppleII.hpp"
#include "../../../Activity/Source.hpp"
#include "../../MachineTypes.hpp"
#include "../../Utility/MemoryFuzzer.hpp"
#include "../../Utility/StringSerialiser.hpp"
#include "../../../Processors/6502/6502.hpp"
#include "../../../Components/AudioToggle/AudioToggle.hpp"
#include "../../../Outputs/Speaker/Implementation/LowpassSpeaker.hpp"
#include "../../../Outputs/Log.hpp"
#include "AuxiliaryMemorySwitches.hpp"
#include "Card.hpp"
#include "DiskIICard.hpp"
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#include "Joystick.hpp"
#include "LanguageCardSwitches.hpp"
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#include "SCSICard.hpp"
#include "Video.hpp"
#include "../../../Analyser/Static/AppleII/Target.hpp"
#include "../../../ClockReceiver/ForceInline.hpp"
#include "../../../Configurable/StandardOptions.hpp"
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#include "../../../Storage/MassStorage/SCSI/SCSI.hpp"
#include "../../../Storage/MassStorage/SCSI/DirectAccessDevice.hpp"
#include "../../../Storage/MassStorage/Encodings/MacintoshVolume.hpp"
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#include <algorithm>
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#include <array>
#include <memory>
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namespace {
constexpr int DiskIISlot = 6; // Apple recommended slot 6 for the (first) Disk II.
constexpr int SCSISlot = 7; // Install the SCSI card in slot 7, to one-up any connected Disk II.
}
namespace Apple {
namespace II {
#define is_iie() ((model == Analyser::Static::AppleII::Target::Model::IIe) || (model == Analyser::Static::AppleII::Target::Model::EnhancedIIe))
template <Analyser::Static::AppleII::Target::Model model> class ConcreteMachine:
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public Apple::II::Machine,
public MachineTypes::TimedMachine,
public MachineTypes::ScanProducer,
public MachineTypes::AudioProducer,
public MachineTypes::MediaTarget,
public MachineTypes::MappedKeyboardMachine,
public MachineTypes::JoystickMachine,
public CPU::MOS6502::BusHandler,
public Configurable::Device,
public Activity::Source,
public Apple::II::Card::Delegate {
private:
struct VideoBusHandler : public Apple::II::Video::BusHandler {
public:
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VideoBusHandler(uint8_t *ram, uint8_t *aux_ram) : ram_(ram), aux_ram_(aux_ram) {}
void perform_read(uint16_t address, size_t count, uint8_t *base_target, uint8_t *auxiliary_target) {
memcpy(base_target, &ram_[address], count);
memcpy(auxiliary_target, &aux_ram_[address], count);
}
private:
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uint8_t *ram_, *aux_ram_;
};
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using Processor = CPU::MOS6502::Processor<
(model == Analyser::Static::AppleII::Target::Model::EnhancedIIe) ? CPU::MOS6502::Personality::PSynertek65C02 : CPU::MOS6502::Personality::P6502,
ConcreteMachine,
false>;
Processor m6502_;
VideoBusHandler video_bus_handler_;
Apple::II::Video::Video<VideoBusHandler, is_iie()> video_;
int cycles_into_current_line_ = 0;
Cycles cycles_since_video_update_;
void update_video() {
video_.run_for(cycles_since_video_update_.flush<Cycles>());
}
static constexpr int audio_divider = 8;
void update_audio() {
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speaker_.run_for(audio_queue_, cycles_since_audio_update_.divide(Cycles(audio_divider)));
}
void update_just_in_time_cards() {
if(cycles_since_card_update_ > Cycles(0)) {
for(const auto &card : just_in_time_cards_) {
card->run_for(cycles_since_card_update_, stretched_cycles_since_card_update_);
}
}
cycles_since_card_update_ = 0;
stretched_cycles_since_card_update_ = 0;
}
uint8_t ram_[65536], aux_ram_[65536];
std::vector<uint8_t> rom_;
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Concurrency::AsyncTaskQueue<false> audio_queue_;
Audio::Toggle audio_toggle_;
Outputs::Speaker::PullLowpass<Audio::Toggle> speaker_;
Cycles cycles_since_audio_update_;
// MARK: - Cards
static constexpr size_t NoActiveCard = 7; // There is no 'card 0' in internal numbering.
size_t active_card_ = NoActiveCard;
std::array<std::unique_ptr<Apple::II::Card>, 8> cards_; // The final slot is a sentinel for 'no active card'.
Cycles cycles_since_card_update_;
std::vector<Apple::II::Card *> every_cycle_cards_;
std::vector<Apple::II::Card *> just_in_time_cards_;
int stretched_cycles_since_card_update_ = 0;
void install_card(std::size_t slot, Apple::II::Card *card) {
assert(slot >= 1 && slot < 8);
cards_[slot - 1].reset(card);
card->set_delegate(this);
pick_card_messaging_group(card);
}
bool is_every_cycle_card(const Apple::II::Card *card) {
return !card->get_select_constraints();
}
bool card_lists_are_dirty_ = true;
bool card_became_just_in_time_ = false;
void pick_card_messaging_group(Apple::II::Card *card) {
// Simplify to a card being either just-in-time or realtime.
// Don't worry about exactly what it's watching,
const bool is_every_cycle = is_every_cycle_card(card);
std::vector<Apple::II::Card *> &intended = is_every_cycle ? every_cycle_cards_ : just_in_time_cards_;
// If the card is already in the proper group, stop.
if(std::find(intended.begin(), intended.end(), card) != intended.end()) return;
// Otherwise, mark the sets as dirty. It isn't safe to transition the card here,
// as the main loop may be part way through iterating the two lists.
card_lists_are_dirty_ = true;
card_became_just_in_time_ |= !is_every_cycle;
}
void card_did_change_select_constraints(Apple::II::Card *card) final {
pick_card_messaging_group(card);
}
Apple::II::DiskIICard *diskii_card() {
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return dynamic_cast<Apple::II::DiskIICard *>(cards_[DiskIISlot - 1].get());
}
Apple::II::SCSICard *scsi_card() {
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return dynamic_cast<Apple::II::SCSICard *>(cards_[SCSISlot - 1].get());
}
// MARK: - Memory Map.
/*
The Apple II's paging mechanisms are byzantine to say the least. Painful is
another appropriate adjective.
On a II and II+ there are five distinct zones of memory:
0000 to c000 : the main block of RAM
c000 to d000 : the IO area, including card ROMs
d000 to e000 : the low ROM area, which can alternatively contain either one of two 4kb blocks of RAM with a language card
e000 onward : the rest of ROM, also potentially replaced with RAM by a language card
On a IIe with auxiliary memory the following orthogonal changes also need to be factored in:
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0000 to 0200 : can be paged independently of the rest of RAM, other than part of the language card area which pages with it
0400 to 0800 : the text screen, can be configured to write to auxiliary RAM
2000 to 4000 : the graphics screen, which can be configured to write to auxiliary RAM
c100 to d000 : can be used to page an additional 3.75kb of ROM, replacing the IO area
c300 to c400 : can contain the same 256-byte segment of the ROM as if the whole IO area were switched, but while leaving cards visible in the rest
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c800 to d000 : can contain ROM separately from the region below c800
If dealt with as individual blocks in the inner loop, that would therefore imply mapping
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an address to one of 13 potential pageable zones. So I've gone reductive and surrendered
to paging every 6502 page of memory independently. It makes the paging events more expensive,
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but hopefully more clear.
*/
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const uint8_t *read_pages_[256]; // each is a pointer to the 256-block of memory the CPU should read when accessing that page of memory
uint8_t *write_pages_[256]; // as per read_pages_, but this is where the CPU should write. If a pointer is nullptr, don't write.
void page(int start, int end, uint8_t *read, uint8_t *write) {
for(int position = start; position < end; ++position) {
read_pages_[position] = read;
if(read) read += 256;
write_pages_[position] = write;
if(write) write += 256;
}
}
// MARK: - The language card, auxiliary memory, and IIe-specific improvements.
LanguageCardSwitches<ConcreteMachine> language_card_;
AuxiliaryMemorySwitches<ConcreteMachine> auxiliary_switches_;
friend LanguageCardSwitches<ConcreteMachine>;
friend AuxiliaryMemorySwitches<ConcreteMachine>;
template <int type> void set_paging() {
if constexpr (bool(type & PagingType::ZeroPage)) {
if(auxiliary_switches_.zero_state()) {
write_pages_[0] = aux_ram_;
} else {
write_pages_[0] = ram_;
}
write_pages_[1] = write_pages_[0] + 256;
read_pages_[0] = write_pages_[0];
read_pages_[1] = write_pages_[1];
}
if constexpr (bool(type & (PagingType::LanguageCard | PagingType::ZeroPage))) {
const auto language_state = language_card_.state();
const auto zero_state = auxiliary_switches_.zero_state();
uint8_t *const ram = zero_state ? aux_ram_ : ram_;
uint8_t *const rom = is_iie() ? &rom_[3840] : rom_.data();
// Which way the region here is mapped to be banks 1 and 2 is
// arbitrary.
page(0xd0, 0xe0,
language_state.read ? &ram[language_state.bank2 ? 0xd000 : 0xc000] : rom,
language_state.write ? nullptr : &ram[language_state.bank2 ? 0xd000 : 0xc000]);
page(0xe0, 0x100,
language_state.read ? &ram[0xe000] : &rom[0x1000],
language_state.write ? nullptr : &ram[0xe000]);
}
if constexpr (bool(type & PagingType::CardArea)) {
const auto state = auxiliary_switches_.card_state();
page(0xc1, 0xc4, state.region_C1_C3 ? &rom_[0xc100 - 0xc100] : nullptr, nullptr);
read_pages_[0xc3] = state.region_C3 ? &rom_[0xc300 - 0xc100] : nullptr;
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page(0xc4, 0xc8, state.region_C4_C8 ? &rom_[0xc400 - 0xc100] : nullptr, nullptr);
page(0xc8, 0xd0, state.region_C8_D0 ? &rom_[0xc800 - 0xc100] : nullptr, nullptr);
}
if constexpr (bool(type & PagingType::Main)) {
const auto state = auxiliary_switches_.main_state();
page(0x02, 0x04,
state.base.read ? &aux_ram_[0x0200] : &ram_[0x0200],
state.base.write ? &aux_ram_[0x0200] : &ram_[0x0200]);
page(0x08, 0x20,
state.base.read ? &aux_ram_[0x0800] : &ram_[0x0800],
state.base.write ? &aux_ram_[0x0800] : &ram_[0x0800]);
page(0x40, 0xc0,
state.base.read ? &aux_ram_[0x4000] : &ram_[0x4000],
state.base.write ? &aux_ram_[0x4000] : &ram_[0x4000]);
page(0x04, 0x08,
state.region_04_08.read ? &aux_ram_[0x0400] : &ram_[0x0400],
state.region_04_08.write ? &aux_ram_[0x0400] : &ram_[0x0400]);
page(0x20, 0x40,
state.region_20_40.read ? &aux_ram_[0x2000] : &ram_[0x2000],
state.region_20_40.write ? &aux_ram_[0x2000] : &ram_[0x2000]);
}
}
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// MARK: - Keyboard and typing.
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struct Keyboard: public Inputs::Keyboard {
Keyboard(Processor *m6502) : m6502_(m6502) {}
void reset_all_keys() final {
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open_apple_is_pressed = closed_apple_is_pressed = control_is_pressed = shift_is_pressed = key_is_down = false;
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}
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bool set_key_pressed(Key key, char value, bool is_pressed) final {
// If no ASCII value is supplied, look for a few special cases.
switch(key) {
case Key::Left: value = 0x08; break;
case Key::Right: value = 0x15; break;
case Key::Down: value = 0x0a; break;
case Key::Up: value = 0x0b; break;
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case Key::Backspace:
if(is_iie()) {
value = 0x7f;
break;
} else {
return false;
}
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case Key::Enter: value = 0x0d; break;
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case Key::Tab:
if (is_iie()) {
value = '\t';
break;
} else {
return false;
}
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case Key::Escape: value = 0x1b; break;
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case Key::Space: value = 0x20; break;
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case Key::LeftOption:
case Key::RightMeta:
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if (is_iie()) {
open_apple_is_pressed = is_pressed;
return true;
} else {
return false;
}
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case Key::RightOption:
case Key::LeftMeta:
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if (is_iie()) {
closed_apple_is_pressed = is_pressed;
return true;
} else {
return false;
}
case Key::LeftControl:
control_is_pressed = is_pressed;
return true;
case Key::LeftShift:
case Key::RightShift:
shift_is_pressed = is_pressed;
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return true;
case Key::F1: case Key::F2: case Key::F3: case Key::F4:
case Key::F5: case Key::F6: case Key::F7: case Key::F8:
case Key::F9: case Key::F10: case Key::F11: case Key::F12:
case Key::PrintScreen:
case Key::ScrollLock:
case Key::Pause:
case Key::Insert:
case Key::Home:
case Key::PageUp:
case Key::PageDown:
case Key::End:
// Accept a bunch non-symbolic other keys, as
// reset, in the hope that the user can find
// at least one usable key.
m6502_->set_reset_line(is_pressed);
return true;
default:
if(!value) {
return false;
}
// Prior to the IIe, the keyboard could produce uppercase only.
if(!is_iie()) value = char(toupper(value));
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if(control_is_pressed && isalpha(value)) value &= 0xbf;
// TODO: properly map IIe keys
if(!is_iie() && shift_is_pressed) {
switch(value) {
case 0x27: value = 0x22; break; // ' -> "
case 0x2c: value = 0x3c; break; // , -> <
case 0x2e: value = 0x3e; break; // . -> >
case 0x2f: value = 0x3f; break; // / -> ?
case 0x30: value = 0x29; break; // 0 -> )
case 0x31: value = 0x21; break; // 1 -> !
case 0x32: value = 0x40; break; // 2 -> @
case 0x33: value = 0x23; break; // 3 -> #
case 0x34: value = 0x24; break; // 4 -> $
case 0x35: value = 0x25; break; // 5 -> %
case 0x36: value = 0x5e; break; // 6 -> ^
case 0x37: value = 0x26; break; // 7 -> &
case 0x38: value = 0x2a; break; // 8 -> *
case 0x39: value = 0x28; break; // 9 -> (
case 0x3b: value = 0x3a; break; // ; -> :
case 0x3d: value = 0x2b; break; // = -> +
}
}
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break;
}
if(is_pressed) {
keyboard_input = uint8_t(value | 0x80);
key_is_down = true;
} else {
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if((keyboard_input & 0x3f) == value) {
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key_is_down = false;
}
}
return true;
}
uint8_t get_keyboard_input() {
if(string_serialiser) {
return string_serialiser->head() | 0x80;
} else {
return keyboard_input;
}
}
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bool shift_is_pressed = false;
bool control_is_pressed = false;
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// The IIe has three keys that are wired directly to the same input as the joystick buttons.
bool open_apple_is_pressed = false;
bool closed_apple_is_pressed = false;
uint8_t keyboard_input = 0x00;
bool key_is_down = false;
std::unique_ptr<Utility::StringSerialiser> string_serialiser;
private:
Processor *const m6502_;
};
Keyboard keyboard_;
// MARK: - Joysticks.
JoystickPair joysticks_;
public:
ConcreteMachine(const Analyser::Static::AppleII::Target &target, const ROMMachine::ROMFetcher &rom_fetcher):
m6502_(*this),
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video_bus_handler_(ram_, aux_ram_),
video_(video_bus_handler_),
audio_toggle_(audio_queue_),
speaker_(audio_toggle_),
language_card_(*this),
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auxiliary_switches_(*this),
keyboard_(&m6502_) {
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// The system's master clock rate.
constexpr float master_clock = 14318180.0;
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// This is where things get slightly convoluted: establish the machine as having a clock rate
// equal to the number of cycles of work the 6502 will actually achieve. Which is less than
// the master clock rate divided by 14 because every 65th cycle is extended by one seventh.
set_clock_rate((master_clock / 14.0) * 65.0 / (65.0 + 1.0 / 7.0));
// The speaker, however, should think it is clocked at half the master clock, per a general
// decision to sample it at seven times the CPU clock (plus stretches).
speaker_.set_input_rate(float(master_clock / (2.0 * float(audio_divider))));
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// Apply a 6Khz low-pass filter. This was picked by ear and by an attempt to understand the
// Apple II schematic but, well, I don't claim much insight on the latter. This is definitely
// something to review in the future.
speaker_.set_high_frequency_cutoff(6000);
// Also, start with randomised memory contents.
Memory::Fuzz(ram_, sizeof(ram_));
Memory::Fuzz(aux_ram_, sizeof(aux_ram_));
// Pick the required ROMs.
using Target = Analyser::Static::AppleII::Target;
ROM::Name character, system;
switch(target.model) {
default:
character = ROM::Name::AppleIICharacter;
system = ROM::Name::AppleIIOriginal;
break;
case Target::Model::IIplus:
character = ROM::Name::AppleIICharacter;
system = ROM::Name::AppleIIPlus;
break;
case Target::Model::IIe:
character = ROM::Name::AppleIIeCharacter;
system = ROM::Name::AppleIIe;
break;
case Target::Model::EnhancedIIe:
character = ROM::Name::AppleIIEnhancedECharacter;
system = ROM::Name::AppleIIEnhancedE;
break;
}
ROM::Request request = ROM::Request(character) && ROM::Request(system);
// Add the necessary Disk II requests if appropriate.
const bool has_disk_controller = target.disk_controller != Target::DiskController::None;
const bool is_sixteen_sector = target.disk_controller == Target::DiskController::SixteenSector;
if(has_disk_controller) {
request = request && DiskIICard::rom_request(is_sixteen_sector);
}
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// Add a SCSI card if requested.
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const bool has_scsi_card = target.scsi_controller == Target::SCSIController::AppleSCSI;
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if(has_scsi_card) {
request = request && SCSICard::rom_request();
}
// Request, validate and install ROMs.
auto roms = rom_fetcher(request);
if(!request.validate(roms)) {
throw ROMMachine::Error::MissingROMs;
}
if(has_disk_controller) {
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install_card(DiskIISlot, new Apple::II::DiskIICard(roms, is_sixteen_sector));
}
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if(has_scsi_card) {
// Rounding the clock rate slightly shouldn't matter, but:
// TODO: be [slightly] more honest about clock rate.
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install_card(SCSISlot, new Apple::II::SCSICard(roms, int(master_clock / 14.0f)));
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}
rom_ = std::move(roms.find(system)->second);
// The IIe and Enhanced IIe ROMs often distributed are oversized; trim if necessary.
if(system == ROM::Name::AppleIIe || system == ROM::Name::AppleIIEnhancedE) {
if(rom_.size() > 16128) {
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rom_.erase(rom_.begin(), rom_.end() - 16128);
}
}
video_.set_character_rom(roms.find(character)->second);
// Set up the default memory blocks. On a II or II+ these values will never change.
// On a IIe they'll be affected by selection of auxiliary RAM.
set_paging<PagingType::Main | PagingType::ZeroPage>();
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// Set the whole card area to initially backed by nothing.
page(0xc0, 0xd0, nullptr, nullptr);
insert_media(target.media);
}
~ConcreteMachine() {
audio_queue_.flush();
}
void set_scan_target(Outputs::Display::ScanTarget *scan_target) final {
video_.set_scan_target(scan_target);
}
Outputs::Display::ScanStatus get_scaled_scan_status() const final {
return video_.get_scaled_scan_status();
}
/// Sets the type of display.
void set_display_type(Outputs::Display::DisplayType display_type) final {
video_.set_display_type(display_type);
}
Outputs::Display::DisplayType get_display_type() const final {
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return video_.get_display_type();
}
Outputs::Speaker::Speaker *get_speaker() final {
return &speaker_;
}
forceinline Cycles perform_bus_operation(const CPU::MOS6502::BusOperation operation, const uint16_t address, uint8_t *const value) {
++ cycles_since_video_update_;
++ cycles_since_card_update_;
cycles_since_audio_update_ += Cycles(7);
// The Apple II has a slightly weird timing pattern: every 65th CPU cycle is stretched
// by an extra 1/7th. That's because one cycle lasts 3.5 NTSC colour clocks, so after
// 65 cycles a full line of 227.5 colour clocks have passed. But the high-rate binary
// signal approximation that produces colour needs to be in phase, so a stretch of exactly
// 0.5 further colour cycles is added. The video class handles that implicitly, but it
// needs to be accumulated here for the audio.
cycles_into_current_line_ = (cycles_into_current_line_ + 1) % 65;
const bool is_stretched_cycle = !cycles_into_current_line_;
if(is_stretched_cycle) {
++ cycles_since_audio_update_;
++ stretched_cycles_since_card_update_;
}
bool has_updated_cards = false;
if(read_pages_[address >> 8]) {
if(isReadOperation(operation)) *value = read_pages_[address >> 8][address & 0xff];
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else {
if(address >= 0x200 && address < 0x6000) update_video();
if(write_pages_[address >> 8]) write_pages_[address >> 8][address & 0xff] = *value;
}
if(is_iie()) {
auxiliary_switches_.access(address, isReadOperation(operation));
}
} else {
// Assume a vapour read unless it turns out otherwise; this is a little
// wasteful but works for now.
//
// Longer version: like many other machines, when the Apple II reads from
// an address at which no hardware loads the data bus, through a process of
// practical analogue effects it'll end up receiving whatever was last on
// the bus. Which will always be whatever the video circuit fetched because
// that fetches in between every instruction.
//
// So this code assumes that'll happen unless it later determines that it
// doesn't. The call into the video isn't free because it's a just-in-time
// actor, but this will actually be the result most of the time so it's not
// too terrible.
if(isReadOperation(operation) && address != 0xc000) {
*value = video_.get_last_read_value(cycles_since_video_update_);
}
switch(address) {
default:
if(isReadOperation(operation)) {
// Read-only switches.
switch(address) {
default: break;
case 0xc000:
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*value = keyboard_.get_keyboard_input();
break;
case 0xc001: case 0xc002: case 0xc003: case 0xc004: case 0xc005: case 0xc006: case 0xc007:
case 0xc008: case 0xc009: case 0xc00a: case 0xc00b: case 0xc00c: case 0xc00d: case 0xc00e: case 0xc00f:
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*value = (*value & 0x80) | (keyboard_.get_keyboard_input() & 0x7f);
break;
case 0xc061: // Switch input 0.
*value &= 0x7f;
if(
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joysticks_.button(0) ||
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(is_iie() && keyboard_.open_apple_is_pressed)
)
*value |= 0x80;
break;
case 0xc062: // Switch input 1.
*value &= 0x7f;
if(
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joysticks_.button(1) ||
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(is_iie() && keyboard_.closed_apple_is_pressed)
)
*value |= 0x80;
break;
case 0xc063: // Switch input 2.
*value &= 0x7f;
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if(joysticks_.button(2))
*value |= 0x80;
break;
case 0xc064: // Analogue input 0.
case 0xc065: // Analogue input 1.
case 0xc066: // Analogue input 2.
case 0xc067: { // Analogue input 3.
const size_t input = address - 0xc064;
*value &= 0x7f;
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if(!joysticks_.analogue_channel_is_discharged(input)) {
*value |= 0x80;
}
} break;
// The IIe-only state reads follow...
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#define IIeSwitchRead(s) *value = keyboard_.get_keyboard_input(); if(is_iie()) *value = (*value & 0x7f) | (s ? 0x80 : 0x00);
case 0xc011: IIeSwitchRead(language_card_.state().bank2); break;
case 0xc012: IIeSwitchRead(language_card_.state().read); break;
case 0xc013: IIeSwitchRead(auxiliary_switches_.switches().read_auxiliary_memory); break;
case 0xc014: IIeSwitchRead(auxiliary_switches_.switches().write_auxiliary_memory); break;
case 0xc015: IIeSwitchRead(auxiliary_switches_.switches().internal_CX_rom); break;
case 0xc016: IIeSwitchRead(auxiliary_switches_.switches().alternative_zero_page); break;
case 0xc017: IIeSwitchRead(auxiliary_switches_.switches().slot_C3_rom); break;
case 0xc018: IIeSwitchRead(video_.get_80_store()); break;
case 0xc019: IIeSwitchRead(video_.get_is_vertical_blank(cycles_since_video_update_)); break;
case 0xc01a: IIeSwitchRead(video_.get_text()); break;
case 0xc01b: IIeSwitchRead(video_.get_mixed()); break;
case 0xc01c: IIeSwitchRead(video_.get_page2()); break;
case 0xc01d: IIeSwitchRead(video_.get_high_resolution()); break;
case 0xc01e: IIeSwitchRead(video_.get_alternative_character_set()); break;
case 0xc01f: IIeSwitchRead(video_.get_80_columns()); break;
#undef IIeSwitchRead
case 0xc07f:
if(is_iie()) *value = (*value & 0x7f) | (video_.get_annunciator_3() ? 0x80 : 0x00);
break;
}
} else {
// Write-only switches. All IIe as currently implemented.
if(is_iie()) {
auxiliary_switches_.access(address, false);
switch(address) {
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default: break;
case 0xc000:
case 0xc001:
update_video();
video_.set_80_store(!!(address&1));
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break;
case 0xc00c:
case 0xc00d:
update_video();
video_.set_80_columns(!!(address&1));
break;
case 0xc00e:
case 0xc00f:
update_video();
video_.set_alternative_character_set(!!(address&1));
break;
}
}
}
break;
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case 0xc070: joysticks_.access_c070(); break;
/* Switches triggered by reading or writing. */
case 0xc050:
case 0xc051:
update_video();
video_.set_text(!!(address&1));
break;
case 0xc052: update_video(); video_.set_mixed(false); break;
case 0xc053: update_video(); video_.set_mixed(true); break;
case 0xc054:
case 0xc055:
update_video();
video_.set_page2(address&1);
auxiliary_switches_.access(address, isReadOperation(operation));
break;
case 0xc056:
case 0xc057:
update_video();
video_.set_high_resolution(address&1);
auxiliary_switches_.access(address, isReadOperation(operation));
break;
case 0xc05e:
case 0xc05f:
if(is_iie()) {
update_video();
video_.set_annunciator_3(!(address&1));
}
break;
case 0xc010:
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keyboard_.keyboard_input &= 0x7f;
if(keyboard_.string_serialiser) {
if(!keyboard_.string_serialiser->advance())
keyboard_.string_serialiser.reset();
}
// On the IIe, reading C010 returns additional key info.
if(is_iie() && isReadOperation(operation)) {
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*value = (keyboard_.key_is_down ? 0x80 : 0x00) | (keyboard_.keyboard_input & 0x7f);
}
break;
case 0xc030: case 0xc031: case 0xc032: case 0xc033: case 0xc034: case 0xc035: case 0xc036: case 0xc037:
case 0xc038: case 0xc039: case 0xc03a: case 0xc03b: case 0xc03c: case 0xc03d: case 0xc03e: case 0xc03f:
update_audio();
audio_toggle_.set_output(!audio_toggle_.get_output());
break;
case 0xc080: case 0xc084: case 0xc088: case 0xc08c:
case 0xc081: case 0xc085: case 0xc089: case 0xc08d:
case 0xc082: case 0xc086: case 0xc08a: case 0xc08e:
case 0xc083: case 0xc087: case 0xc08b: case 0xc08f:
language_card_.access(address, isReadOperation(operation));
break;
}
/*
Communication with cards follows.
*/
if(!read_pages_[address >> 8] && address >= 0xc090 && address < 0xd000) {
// If this is a card access, figure out which card is at play before determining
// the totality of who needs messaging.
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size_t card_number = 0;
Apple::II::Card::Select select = Apple::II::Card::None;
if(address >= 0xc800) {
/*
Decode the 2kb area used for additional ROMs.
This is shared by all cards.
*/
card_number = active_card_;
select = Apple::II::Card::C8Region;
// An access to $cfff will disable the active card.
if(address == 0xcfff) {
active_card_ = NoActiveCard;
}
} else if(address >= 0xc100) {
/*
Decode the area conventionally used by cards for ROMs:
0xCn00 to 0xCnff: card n.
This also sets the active card for the C8 region.
*/
active_card_ = card_number = (address - 0xc100) >> 8;
select = Apple::II::Card::Device;
} else {
/*
Decode the area conventionally used by cards for registers:
C0n0 to C0nF: card n - 8.
*/
card_number = (address - 0xc090) >> 4;
select = Apple::II::Card::IO;
}
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// If the selected card is a just-in-time card, update the just-in-time cards,
// and then message it specifically.
const bool is_read = isReadOperation(operation);
Apple::II::Card *const target = cards_[size_t(card_number)].get();
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if(target && !is_every_cycle_card(target)) {
update_just_in_time_cards();
target->perform_bus_operation(select, is_read, address, value);
}
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// Update all the every-cycle cards regardless, but send them a ::None select if they're
// not the one actually selected.
for(const auto &card: every_cycle_cards_) {
card->run_for(Cycles(1), is_stretched_cycle);
card->perform_bus_operation(
(card == target) ? select : Apple::II::Card::None,
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is_read, address, value);
}
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has_updated_cards = true;
}
}
if(!has_updated_cards && !every_cycle_cards_.empty()) {
// Update all every-cycle cards and give them the cycle.
const bool is_read = isReadOperation(operation);
for(const auto &card: every_cycle_cards_) {
card->run_for(Cycles(1), is_stretched_cycle);
card->perform_bus_operation(Apple::II::Card::None, is_read, address, value);
}
}
// Update the card lists if any mutations are due.
if(card_lists_are_dirty_) {
card_lists_are_dirty_ = false;
// There's only one counter of time since update
// for just-in-time cards. If something new is
// transitioning, that needs to be zeroed.
if(card_became_just_in_time_) {
card_became_just_in_time_ = false;
update_just_in_time_cards();
}
// Clear the two lists and repopulate.
every_cycle_cards_.clear();
just_in_time_cards_.clear();
for(const auto &card: cards_) {
if(!card) continue;
if(is_every_cycle_card(card.get())) {
every_cycle_cards_.push_back(card.get());
} else {
just_in_time_cards_.push_back(card.get());
}
}
}
// Update analogue charge level.
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joysticks_.update_charge();
return Cycles(1);
}
void flush_output(int outputs) final {
update_just_in_time_cards();
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if(outputs & Output::Video) {
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update_video();
}
if(outputs & Output::Audio) {
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update_audio();
audio_queue_.perform();
}
}
void run_for(const Cycles cycles) final {
m6502_.run_for(cycles);
}
bool prefers_logical_input() final {
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return is_iie();
}
Inputs::Keyboard &get_keyboard() final {
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return keyboard_;
}
void type_string(const std::string &string) final {
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keyboard_.string_serialiser = std::make_unique<Utility::StringSerialiser>(string, true);
}
bool can_type(char c) const final {
// Make an effort to type the entire printable ASCII range.
return c >= 32 && c < 127;
}
// MARK:: Configuration options.
std::unique_ptr<Reflection::Struct> get_options() final {
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auto options = std::make_unique<Options>(Configurable::OptionsType::UserFriendly);
options->output = get_video_signal_configurable();
options->use_square_pixels = video_.get_use_square_pixels();
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return options;
}
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void set_options(const std::unique_ptr<Reflection::Struct> &str) {
const auto options = dynamic_cast<Options *>(str.get());
set_video_signal_configurable(options->output);
video_.set_use_square_pixels(options->use_square_pixels);
}
// MARK: MediaTarget
bool insert_media(const Analyser::Static::Media &media) final {
if(!media.disks.empty()) {
auto diskii = diskii_card();
if(diskii) diskii->set_disk(media.disks[0], 0);
}
if(!media.mass_storage_devices.empty()) {
auto scsi = scsi_card();
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if(scsi) scsi->set_storage_device(media.mass_storage_devices[0]);
}
return true;
}
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// MARK: Activity::Source
void set_activity_observer(Activity::Observer *observer) final {
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for(const auto &card: cards_) {
if(card) card->set_activity_observer(observer);
}
}
// MARK: JoystickMachine
const std::vector<std::unique_ptr<Inputs::Joystick>> &get_joysticks() final {
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return joysticks_.get_joysticks();
}
};
}
}
using namespace Apple::II;
Machine *Machine::AppleII(const Analyser::Static::Target *target, const ROMMachine::ROMFetcher &rom_fetcher) {
using Target = Analyser::Static::AppleII::Target;
const Target *const appleii_target = dynamic_cast<const Target *>(target);
switch(appleii_target->model) {
default: return nullptr;
case Target::Model::II: return new ConcreteMachine<Target::Model::II>(*appleii_target, rom_fetcher);
case Target::Model::IIplus: return new ConcreteMachine<Target::Model::IIplus>(*appleii_target, rom_fetcher);
case Target::Model::IIe: return new ConcreteMachine<Target::Model::IIe>(*appleii_target, rom_fetcher);
case Target::Model::EnhancedIIe: return new ConcreteMachine<Target::Model::EnhancedIIe>(*appleii_target, rom_fetcher);
}
}
Machine::~Machine() {}