#include "mainwindow.h" #include "settings.h" #include "timer.h" #include #include #include #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) #include #include #endif #include #include #include "../../Numeric/CRC.hpp" namespace { std::unique_ptr> fileContentsAndClose(FILE *file) { auto data = std::make_unique>(); fseek(file, 0, SEEK_END); data->resize(std::ftell(file)); fseek(file, 0, SEEK_SET); size_t read = fread(data->data(), 1, data->size(), file); fclose(file); if(read == data->size()) { return data; } return nullptr; } } /* General Qt implementation notes: * it seems like Qt doesn't offer a way to constrain the aspect ratio of a view by constraining the size of the window (i.e. you can use a custom layout to constrain a view, but that won't affect the window, so isn't useful for this project). Therefore the emulation window resizes freely. */ MainWindow::MainWindow(QWidget *parent) : QMainWindow(parent) { init(); setUIPhase(UIPhase::SelectingMachine); } MainWindow::MainWindow(const QString &fileName) { init(); if(!launchFile(fileName)) { setUIPhase(UIPhase::SelectingMachine); } } void MainWindow::deleteMachine() { // Stop the timer; stopping this first ensures the machine won't attempt // to write to the audioOutput while it is being shut down. timer.reset(); // Shut down the scan target while it still has a context for cleanup. ui->openGLWidget->stop(); // Stop the audio output, and its thread. if(audioOutput) { audioThread.performAsync([this] { audioOutput->stop(); audioOutput.reset(); }); audioThread.stop(); } // Release the machine. machine.reset(); // Remove any machine-specific options. if(displayMenu) menuBar()->removeAction(displayMenu->menuAction()); if(enhancementsMenu) menuBar()->removeAction(enhancementsMenu->menuAction()); if(controlsMenu) menuBar()->removeAction(controlsMenu->menuAction()); if(inputMenu) menuBar()->removeAction(inputMenu->menuAction()); displayMenu = enhancementsMenu = controlsMenu = inputMenu = nullptr; // Remove the status bar, if any. setStatusBar(nullptr); } MainWindow::~MainWindow() { deleteMachine(); --mainWindowCount; // Store the current user selections. storeSelections(); } void MainWindow::closeEvent(QCloseEvent *event) { // SDI behaviour, which may or may not be normal (?): if the user is closing a // final window, and it is anywher ebeyond the machine picker, send them back // to the start. i.e. assume they were closing that document, not the application. if(mainWindowCount == 1 && uiPhase != UIPhase::SelectingMachine) { setUIPhase(UIPhase::SelectingMachine); deleteMachine(); event->ignore(); return; } QMainWindow::closeEvent(event); } void MainWindow::init() { ++mainWindowCount; qApp->installEventFilter(this); ui = std::make_unique(); ui->setupUi(this); romRequestBaseText = ui->missingROMsBox->toPlainText(); // TEMPORARY: remove the Apple IIgs tab; this machine isn't ready yet. ui->machineSelectionTabs->removeTab(ui->machineSelectionTabs->indexOf(ui->appleIIgsTab)); createActions(); restoreSelections(); } void MainWindow::createActions() { // Create a file menu. QMenu *const fileMenu = menuBar()->addMenu(tr("&File")); // Add file option: 'New' QAction *const newAct = new QAction(tr("&New"), this); newAct->setShortcuts(QKeySequence::New); connect(newAct, &QAction::triggered, this, [this] { storeSelections(); MainWindow *other = new MainWindow; other->tile(this); other->setAttribute(Qt::WA_DeleteOnClose); other->show(); }); fileMenu->addAction(newAct); // Add file option: 'Open...' QAction *const openAct = new QAction(tr("&Open..."), this); openAct->setShortcuts(QKeySequence::Open); connect(openAct, &QAction::triggered, this, [this] { const QString fileName = getFilename("Open..."); if(!fileName.isEmpty()) { // My understanding of SDI: if a file was opened for a 'vacant' window, launch it directly there; // otherwise create a new window for it. if(machine) { MainWindow *const other = new MainWindow(fileName); other->tile(this); other->setAttribute(Qt::WA_DeleteOnClose); other->show(); } else { launchFile(fileName); } } }); fileMenu->addAction(openAct); // Add a separator and then an 'Insert...'. fileMenu->addSeparator(); insertAction = new QAction(tr("&Insert..."), this); insertAction->setEnabled(false); connect(insertAction, &QAction::triggered, this, [this] { const QString fileName = getFilename("Insert..."); if(!fileName.isEmpty()) { insertFile(fileName); } }); fileMenu->addAction(insertAction); addHelpMenu(); // Link up the start machine button. connect(ui->startMachineButton, &QPushButton::clicked, this, &MainWindow::startMachine); } void MainWindow::addHelpMenu() { if(helpMenu) { menuBar()->removeAction(helpMenu->menuAction()); } // Add Help menu, with an 'About...' option. helpMenu = menuBar()->addMenu(tr("&Help")); helpMenu->addAction(tr("&About"), this, [this] { QMessageBox::about(this, tr("About Clock Signal"), tr( "

Clock Signal is an emulator of various platforms.

" "

This emulator is offered under the MIT licence; its source code " "is available from GitHub.

" "

This port is experimental, especially with regard to latency; " "please don't hesitate to provide feedback, " "by email or via the " "GitHub issue tracker.

" )); }); } QString MainWindow::getFilename(const char *title) { Settings settings; // Use the Settings to get a default open path; write it back afterwards. QString fileName = QFileDialog::getOpenFileName(this, tr(title), settings.value("openPath").toString()); if(!fileName.isEmpty()) { settings.setValue("openPath", QFileInfo(fileName).absoluteDir().path()); } return fileName; } bool MainWindow::insertFile(const QString &fileName) { if(!machine) return false; auto mediaTarget = machine->media_target(); if(!mediaTarget) return false; const Analyser::Static::Media media = Analyser::Static::GetMedia(fileName.toStdString()); if(media.empty()) return false; return mediaTarget->insert_media(media); } bool MainWindow::launchFile(const QString &fileName) { targets = Analyser::Static::GetTargets(fileName.toStdString()); if(!targets.empty()) { openFileName = QFileInfo(fileName).fileName(); launchMachine(); return true; } else { QMessageBox msgBox; msgBox.setText("Unable to open file: " + fileName); msgBox.exec(); return false; } } void MainWindow::tile(const QMainWindow *previous) { // This entire function is essentially verbatim from the Qt SDI example. if (!previous) return; int topFrameWidth = previous->geometry().top() - previous->pos().y(); if (!topFrameWidth) topFrameWidth = 40; const QPoint pos = previous->pos() + 2 * QPoint(topFrameWidth, topFrameWidth); #if QT_VERSION >= QT_VERSION_CHECK(5, 14, 0) if (screen()->availableGeometry().contains(rect().bottomRight() + pos)) #endif move(pos); } // MARK: Machine launch. void MainWindow::launchMachine() { const QStringList appDataLocations = QStandardPaths::standardLocations(QStandardPaths::AppDataLocation); ROMMachine::ROMFetcher rom_fetcher = [&appDataLocations, this] (const ROM::Request &roms) -> ROM::Map { ROM::Map results; for(const auto &description: roms.all_descriptions()) { for(const auto &file_name: description.file_names) { FILE *file = nullptr; for(const auto &path: appDataLocations) { const std::string source = path.toStdString() + "/ROMImages/" + description.machine_name + "/" + file_name; const std::string nativeSource = QDir::toNativeSeparators(QString::fromStdString(source)).toStdString(); file = fopen(nativeSource.c_str(), "rb"); if(file) break; } if(file) { auto data = fileContentsAndClose(file); if(data) { results[description.name] = *data; continue; } } } } missingRoms = roms.subtract(results); return results; }; Machine::Error error; machine = Machine::MachineForTargets(targets, rom_fetcher, error); if(error != Machine::Error::None) { switch(error) { default: break; case Machine::Error::MissingROM: { setUIPhase(UIPhase::RequestingROMs); // Populate request text. QString requestText = romRequestBaseText; requestText += QString::fromWCharArray(missingRoms.description(0, L'•').c_str()); ui->missingROMsBox->setPlainText(requestText); } break; } return; } setUIPhase(UIPhase::RunningMachine); // Supply the scan target. // TODO: in the future, hypothetically, deal with non-scan producers. const auto scan_producer = machine->scan_producer(); if(scan_producer) { ui->openGLWidget->setScanProducer(scan_producer); } // Install audio output if required. const auto audio_producer = machine->audio_producer(); if(audio_producer) { static constexpr size_t samplesPerBuffer = 256; // TODO: select this dynamically. const auto speaker = audio_producer->get_speaker(); if(speaker) { #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) QAudioDevice device(QMediaDevices::defaultAudioOutput()); if(true) { // TODO: how to check that audio output is available in Qt6? QAudioFormat idealFormat = device.preferredFormat(); #else const QAudioDeviceInfo &defaultDeviceInfo = QAudioDeviceInfo::defaultOutputDevice(); if(!defaultDeviceInfo.isNull()) { QAudioFormat idealFormat = defaultDeviceInfo.preferredFormat(); #endif // Use the ideal format's sample rate, provide stereo as long as at least two channels // are available, and — at least for now — assume a good buffer size. audioIsStereo = (idealFormat.channelCount() > 1) && speaker->get_is_stereo(); #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) audioIs8bit = idealFormat.sampleFormat() == QAudioFormat::UInt8; #else audioIs8bit = idealFormat.sampleSize() < 16; #endif idealFormat.setChannelCount(1 + int(audioIsStereo)); #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) idealFormat.setSampleFormat(audioIs8bit ? QAudioFormat::UInt8 : QAudioFormat::Int16); #else idealFormat.setSampleSize(audioIs8bit ? 8 : 16); #endif speaker->set_output_rate(idealFormat.sampleRate(), samplesPerBuffer, audioIsStereo); speaker->set_delegate(this); audioThread.start(); audioThread.performAsync([&] { // Create an audio output. #if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0) audioOutput = std::make_unique(device, idealFormat); #else audioOutput = std::make_unique(idealFormat); #endif // Start the output. The additional `audioBuffer` is meant to minimise latency, // believe it or not, given Qt's semantics. audioOutput->setBufferSize(samplesPerBuffer * sizeof(int16_t)); audioOutput->start(&audioBuffer); audioBuffer.setDepth(audioOutput->bufferSize()); }); } } } // Set user-friendly default options. const auto machineType = targets[0]->machine; const std::string longMachineName = Machine::LongNameForTargetMachine(machineType); const auto configurable = machine->configurable_device(); if(configurable) { configurable->set_options(Machine::AllOptionsByMachineName()[longMachineName]); } // If this is a timed machine, start up the timer. const auto timedMachine = machine->timed_machine(); if(timedMachine) { timer = std::make_unique(this); timer->startWithMachine(timedMachine, &machineMutex); } // If the machine can accept new media while running, enable // the inert action. if(machine->media_target()) { insertAction->setEnabled(true); } // Add an 'input' menu if justified (i.e. machine has both a keyboard and joystick input, and the keyboard is exclusive). auto keyboardMachine = machine->keyboard_machine(); auto joystickMachine = machine->joystick_machine(); if(keyboardMachine && joystickMachine && keyboardMachine->get_keyboard().is_exclusive()) { inputMenu = menuBar()->addMenu(tr("&Input")); QAction *const asKeyboardAction = new QAction(tr("Use Keyboard as Keyboard"), this); asKeyboardAction->setCheckable(true); asKeyboardAction->setChecked(true); #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0) asKeyboardAction->setShortcut(QKeySequence(Qt::CTRL + Qt::Key_K)); #endif inputMenu->addAction(asKeyboardAction); QAction *const asJoystickAction = new QAction(tr("Use Keyboard as Joystick"), this); asJoystickAction->setCheckable(true); asJoystickAction->setChecked(false); #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0) asJoystickAction->setShortcut(QKeySequence(Qt::CTRL + Qt::Key_J)); #endif inputMenu->addAction(asJoystickAction); connect(asKeyboardAction, &QAction::triggered, this, [=] { keyboardInputMode = KeyboardInputMode::Keyboard; asKeyboardAction->setChecked(true); asJoystickAction->setChecked(false); }); connect(asJoystickAction, &QAction::triggered, this, [=] { keyboardInputMode = KeyboardInputMode::Joystick; asKeyboardAction->setChecked(false); asJoystickAction->setChecked(true); }); } keyboardInputMode = keyboardMachine ? KeyboardInputMode::Keyboard : KeyboardInputMode::Joystick; // Add machine-specific UI. const std::string settingsPrefix = Machine::ShortNameForTargetMachine(machineType); switch(machineType) { case Analyser::Machine::AmstradCPC: addDisplayMenu(settingsPrefix, "Television", "", "", "Monitor"); break; case Analyser::Machine::AppleII: addAppleIIMenu(); break; case Analyser::Machine::Atari2600: addAtari2600Menu(); break; case Analyser::Machine::AtariST: addDisplayMenu(settingsPrefix, "Television", "", "", "Monitor"); break; case Analyser::Machine::ColecoVision: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", ""); break; case Analyser::Machine::Electron: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", "RGB"); addEnhancementsMenu(settingsPrefix, true, false); break; case Analyser::Machine::Enterprise: addDisplayMenu(settingsPrefix, "Composite", "", "", "RGB"); break; case Analyser::Machine::Macintosh: addEnhancementsMenu(settingsPrefix, false, true); break; case Analyser::Machine::MasterSystem: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", "SCART"); break; case Analyser::Machine::MSX: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", "SCART"); addEnhancementsMenu(settingsPrefix, true, false); break; case Analyser::Machine::Oric: addDisplayMenu(settingsPrefix, "Composite", "", "", "SCART"); break; case Analyser::Machine::Vic20: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", ""); addEnhancementsMenu(settingsPrefix, true, false); break; case Analyser::Machine::ZX8081: addZX8081Menu(settingsPrefix); break; case Analyser::Machine::ZXSpectrum: addDisplayMenu(settingsPrefix, "Composite", "", "S-Video", "SCART"); addEnhancementsMenu(settingsPrefix, true, false); break; default: break; } // Push the help menu after any that were just added. addHelpMenu(); // Add activity LED UI. addActivityObserver(); } void MainWindow::addDisplayMenu(const std::string &machinePrefix, const std::string &compositeColour, const std::string &compositeMono, const std::string &svideo, const std::string &rgb) { // Create a display menu. displayMenu = menuBar()->addMenu(tr("&Display")); QAction *compositeColourAction = nullptr; QAction *compositeMonochromeAction = nullptr; QAction *sVideoAction = nullptr; QAction *rgbAction = nullptr; // Add all requested actions. #define Add(name, action) \ if(!name.empty()) { \ action = new QAction(tr(name.c_str()), this); \ action->setCheckable(true); \ displayMenu->addAction(action); \ } Add(compositeColour, compositeColourAction); Add(compositeMono, compositeMonochromeAction); Add(svideo, sVideoAction); Add(rgb, rgbAction); #undef Add // Get the machine's default setting. auto options = machine->configurable_device()->get_options(); auto defaultDisplay = Reflection::get(*options, "output"); // Check whether there's an alternative selection in the user settings. If so, apply it. Settings settings; const auto settingName = QString::fromStdString(machinePrefix + ".displayType"); if(settings.contains(settingName)) { auto userSelectedDisplay = Configurable::Display(settings.value(settingName).toInt()); if(userSelectedDisplay != defaultDisplay) { defaultDisplay = userSelectedDisplay; Reflection::set(*options, "output", int(userSelectedDisplay)); machine->configurable_device()->set_options(options); } } // Add actions to the generated options. size_t index = 0; for(auto action: {compositeColourAction, compositeMonochromeAction, sVideoAction, rgbAction}) { constexpr Configurable::Display displaySelections[] = { Configurable::Display::CompositeColour, Configurable::Display::CompositeMonochrome, Configurable::Display::SVideo, Configurable::Display::RGB, }; const Configurable::Display displaySelection = displaySelections[index]; ++index; if(!action) continue; action->setChecked(displaySelection == defaultDisplay); connect(action, &QAction::triggered, this, [=] { for(auto otherAction: {compositeColourAction, compositeMonochromeAction, sVideoAction, rgbAction}) { if(otherAction && otherAction != action) otherAction->setChecked(false); } Settings settings; settings.setValue(settingName, int(displaySelection)); std::lock_guard lock_guard(machineMutex); auto options = machine->configurable_device()->get_options(); Reflection::set(*options, "output", int(displaySelection)); machine->configurable_device()->set_options(options); }); } } void MainWindow::addEnhancementsMenu(const std::string &machinePrefix, bool offerQuickLoad, bool offerQuickBoot) { enhancementsMenu = menuBar()->addMenu(tr("&Enhancements")); addEnhancementsItems(machinePrefix, enhancementsMenu, offerQuickLoad, offerQuickBoot, false); } void MainWindow::addEnhancementsItems(const std::string &machinePrefix, QMenu *menu, bool offerQuickLoad, bool offerQuickBoot, bool offerAutomaticTapeControl) { auto options = machine->configurable_device()->get_options(); Settings settings; #define Add(offered, text, setting, action) \ if(offered) { \ action = new QAction(tr(text), this); \ action->setCheckable(true); \ menu->addAction(action); \ \ const auto settingName = QString::fromStdString(machinePrefix + "." + setting); \ if(settings.contains(settingName)) { \ const bool isSelected = settings.value(settingName).toBool(); \ Reflection::set(*options, setting, isSelected); \ } \ action->setChecked(Reflection::get(*options, setting) ? Qt::Checked : Qt::Unchecked); \ \ connect(action, &QAction::triggered, this, [=] { \ std::lock_guard lock_guard(machineMutex); \ auto options = machine->configurable_device()->get_options(); \ Reflection::set(*options, setting, action->isChecked()); \ machine->configurable_device()->set_options(options); \ \ Settings settings; \ settings.setValue(settingName, action->isChecked()); \ }); \ } QAction *action; Add(offerQuickLoad, "Load Quickly", "quickload", action); Add(offerQuickBoot, "Start Quickly", "quickboot", action); if(offerAutomaticTapeControl) menu->addSeparator(); Add(offerAutomaticTapeControl, "Start and Stop Tape Automatically", "automatic_tape_motor_control", automaticTapeControlAction); #undef Add machine->configurable_device()->set_options(options); } void MainWindow::addZX8081Menu(const std::string &machinePrefix) { controlsMenu = menuBar()->addMenu(tr("Tape &Control")); // Add the quick-load option. addEnhancementsItems(machinePrefix, controlsMenu, true, false, true); // Add the start/stop items. startTapeAction = new QAction(tr("Start Tape"), this); controlsMenu->addAction(startTapeAction); connect(startTapeAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); static_cast(machine->raw_pointer())->set_tape_is_playing(true); updateTapeControls(); }); stopTapeAction = new QAction(tr("Stop Tape"), this); controlsMenu->addAction(stopTapeAction); connect(stopTapeAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); static_cast(machine->raw_pointer())->set_tape_is_playing(false); updateTapeControls(); }); updateTapeControls(); connect(automaticTapeControlAction, &QAction::triggered, this, [=] { updateTapeControls(); }); } void MainWindow::updateTapeControls() { const bool startStopEnabled = !automaticTapeControlAction->isChecked(); const bool isPlaying = static_cast(machine->raw_pointer())->get_tape_is_playing(); startTapeAction->setEnabled(!isPlaying && startStopEnabled); stopTapeAction->setEnabled(isPlaying && startStopEnabled); } void MainWindow::addAtari2600Menu() { controlsMenu = menuBar()->addMenu(tr("&Switches")); QAction *const blackAndWhiteAction = new QAction(tr("Black and white")); blackAndWhiteAction->setCheckable(true); connect(blackAndWhiteAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); // TODO: is this switch perhaps misnamed? static_cast(machine->raw_pointer())->set_switch_is_enabled(Atari2600SwitchColour, blackAndWhiteAction->isChecked()); }); controlsMenu->addAction(blackAndWhiteAction); QAction *const leftDifficultyAction = new QAction(tr("Left Difficulty")); leftDifficultyAction->setCheckable(true); connect(leftDifficultyAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); static_cast(machine->raw_pointer())->set_switch_is_enabled(Atari2600SwitchLeftPlayerDifficulty, leftDifficultyAction->isChecked()); }); controlsMenu->addAction(leftDifficultyAction); QAction *const rightDifficultyAction = new QAction(tr("Right Difficulty")); rightDifficultyAction->setCheckable(true); connect(rightDifficultyAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); static_cast(machine->raw_pointer())->set_switch_is_enabled(Atari2600SwitchRightPlayerDifficulty, rightDifficultyAction->isChecked()); }); controlsMenu->addAction(rightDifficultyAction); controlsMenu->addSeparator(); QAction *const gameSelectAction = new QAction(tr("Game Select")); controlsMenu->addAction(gameSelectAction); connect(gameSelectAction, &QAction::triggered, this, [=] { toggleAtari2600Switch(Atari2600SwitchSelect); }); QAction *const gameResetAction = new QAction(tr("Game Reset")); controlsMenu->addAction(gameResetAction); connect(gameSelectAction, &QAction::triggered, this, [=] { toggleAtari2600Switch(Atari2600SwitchReset); }); } void MainWindow::toggleAtari2600Switch(Atari2600Switch toggleSwitch) { std::lock_guard lock_guard(machineMutex); const auto atari2600 = static_cast(machine->raw_pointer()); atari2600->set_switch_is_enabled(toggleSwitch, true); QTimer::singleShot(500, this, [atari2600, toggleSwitch] { atari2600->set_switch_is_enabled(toggleSwitch, false); }); } void MainWindow::addAppleIIMenu() { // Add the standard display settings. addDisplayMenu("appleII", "Colour", "Monochrome", "", ""); // Add an additional tick box, for square pixels. QAction *const squarePixelsAction = new QAction(tr("Square Pixels")); squarePixelsAction->setCheckable(true); connect(squarePixelsAction, &QAction::triggered, this, [=] { std::lock_guard lock_guard(machineMutex); // Apply the new setting to the machine. setAppleIISquarePixels(squarePixelsAction->isChecked()); // Also store it. Settings settings; settings.setValue("appleII.squarePixels", squarePixelsAction->isChecked()); }); displayMenu->addAction(squarePixelsAction); // Establish initial selection. Settings settings; const bool useSquarePixels = settings.value("appleII.squarePixels").toBool(); squarePixelsAction->setChecked(useSquarePixels); setAppleIISquarePixels(useSquarePixels); } void MainWindow::setAppleIISquarePixels(bool squarePixels) { Configurable::Device *const configurable = machine->configurable_device(); auto options = configurable->get_options(); auto appleii_options = static_cast(options.get()); appleii_options->use_square_pixels = squarePixels; configurable->set_options(options); } void MainWindow::speaker_did_complete_samples(Outputs::Speaker::Speaker *, const std::vector &buffer) { audioBuffer.write(buffer); } void MainWindow::dragEnterEvent(QDragEnterEvent* event) { // Always accept dragged files. if(event->mimeData()->hasUrls()) event->accept(); } void MainWindow::dropEvent(QDropEvent* event) { if(!event->mimeData()->hasUrls()) { return; } event->accept(); switch(uiPhase) { case UIPhase::SelectingMachine: { // Treat exactly as a File -> Open... . const auto fileName = event->mimeData()->urls()[0].toLocalFile(); launchFile(fileName); } break; case UIPhase::RunningMachine: { // Attempt to insert into the running machine. const auto fileName = event->mimeData()->urls()[0].toLocalFile(); if(!insertFile(fileName)) { deleteMachine(); launchFile(fileName); } } break; // TODO: permit multiple files dropped at once in both of the above cases. case UIPhase::RequestingROMs: { // Attempt to match up the dragged files to the requested ROM list; // if and when they match, copy to a writeable QStandardPaths::AppDataLocation // and try launchMachine() again. bool foundROM = false; const auto appDataLocation = QStandardPaths::writableLocation(QStandardPaths::AppDataLocation).toStdString(); QString unusedRoms; for(const auto &url: event->mimeData()->urls()) { const std::string name = url.toLocalFile().toStdString(); FILE *const file = fopen(name.c_str(), "rb"); if(!file) continue; const auto contents = fileContentsAndClose(file); if(!contents) continue; CRC::CRC32 generator; const uint32_t crc = generator.compute_crc(*contents); std::optional target_rom = ROM::Description::from_crc(crc); if(target_rom) { // Ensure the destination folder exists. const std::string path = appDataLocation + "/ROMImages/" + target_rom->machine_name; const QDir dir(QString::fromStdString(path)); if (!dir.exists()) dir.mkpath("."); // Write into place. const std::string destination = QDir::toNativeSeparators(QString::fromStdString(path+ "/" + target_rom->file_names[0])).toStdString(); FILE *const target = fopen(destination.c_str(), "wb"); fwrite(contents->data(), 1, contents->size(), target); fclose(target); // Note that at least one meaningful ROM was supplied. foundROM = true; } else { if(!unusedRoms.isEmpty()) unusedRoms += ", "; unusedRoms += url.fileName(); } } if(!unusedRoms.isEmpty()) { QMessageBox msgBox; msgBox.setText("Couldn't identify ROMs: " + unusedRoms); msgBox.exec(); } if(foundROM) launchMachine(); } break; } } void MainWindow::setUIPhase(UIPhase phase) { uiPhase = phase; // The volume slider is never visible by default; a running machine // will show and hide it dynamically. ui->volumeSlider->setVisible(false); // Show or hide the missing ROMs box. ui->missingROMsBox->setVisible(phase == UIPhase::RequestingROMs); // Show or hide the various machine-picking chrome. ui->machineSelectionTabs->setVisible(phase == UIPhase::SelectingMachine); ui->startMachineButton->setVisible(phase == UIPhase::SelectingMachine); ui->topTipLabel->setVisible(phase == UIPhase::SelectingMachine); // Consider setting a window title, if it's knowable. setWindowTitle(); // Set appropriate focus if necessary; e.g. this ensures that machine-picker // widgets aren't still selectable after a machine starts. if(phase != UIPhase::SelectingMachine) { ui->openGLWidget->setFocus(); } else { ui->startMachineButton->setDefault(true); } // Indicate whether to catch mouse input. ui->openGLWidget->setMouseDelegate( (phase == UIPhase::RunningMachine && machine && machine->mouse_machine()) ? this : nullptr ); } void MainWindow::setWindowTitle() { QString title; switch(uiPhase) { case UIPhase::SelectingMachine: title = tr("Select a machine..."); break; case UIPhase::RequestingROMs: title = tr("Provide ROMs..."); break; default: // Update the window title. TODO: clearly I need a proper functional solution for the window title. if(openFileName.isEmpty()) { const auto machineType = targets[0]->machine; title = QString::fromStdString(Machine::LongNameForTargetMachine(machineType)); } else { title = openFileName; } break; } if(mouseIsCaptured) title += " (press control+escape or F8+F12 to release mouse)"; QMainWindow::setWindowTitle(title); } // MARK: - Event Processing void MainWindow::changeEvent(QEvent *event) { // Clear current key state upon any window activation change. if(machine && event->type() == QEvent::ActivationChange) { const auto keyboardMachine = machine->keyboard_machine(); if(keyboardMachine) { keyboardMachine->clear_all_keys(); return; } } event->ignore(); } void MainWindow::keyPressEvent(QKeyEvent *event) { processEvent(event); } void MainWindow::keyReleaseEvent(QKeyEvent *event) { processEvent(event); } bool MainWindow::processEvent(QKeyEvent *event) { if(!machine) return true; const auto key = keyMapper.keyForEvent(event); if(!key) return true; const bool isPressed = event->type() == QEvent::KeyPress; std::unique_lock lock(machineMutex); switch(keyboardInputMode) { case KeyboardInputMode::Keyboard: { const auto keyboardMachine = machine->keyboard_machine(); if(!keyboardMachine) return true; auto &keyboard = keyboardMachine->get_keyboard(); keyboard.set_key_pressed(*key, event->text().size() ? event->text()[0].toLatin1() : '\0', isPressed, event->isAutoRepeat()); if(keyboard.is_exclusive() || keyboard.observed_keys().find(*key) != keyboard.observed_keys().end()) { return false; } } [[fallthrough]]; case KeyboardInputMode::Joystick: { const auto joystickMachine = machine->joystick_machine(); if(!joystickMachine) return true; const auto &joysticks = joystickMachine->get_joysticks(); if(!joysticks.empty()) { using Key = Inputs::Keyboard::Key; switch(*key) { case Key::Left: joysticks[0]->set_input(Inputs::Joystick::Input::Left, isPressed); break; case Key::Right: joysticks[0]->set_input(Inputs::Joystick::Input::Right, isPressed); break; case Key::Up: joysticks[0]->set_input(Inputs::Joystick::Input::Up, isPressed); break; case Key::Down: joysticks[0]->set_input(Inputs::Joystick::Input::Down, isPressed); break; case Key::Space: joysticks[0]->set_input(Inputs::Joystick::Input::Fire, isPressed); break; case Key::A: joysticks[0]->set_input(Inputs::Joystick::Input(Inputs::Joystick::Input::Fire, 0), isPressed); break; case Key::S: joysticks[0]->set_input(Inputs::Joystick::Input(Inputs::Joystick::Input::Fire, 1), isPressed); break; case Key::D: joysticks[0]->set_input(Inputs::Joystick::Input(Inputs::Joystick::Input::Fire, 2), isPressed); break; case Key::F: joysticks[0]->set_input(Inputs::Joystick::Input(Inputs::Joystick::Input::Fire, 3), isPressed); break; default: if(event->text().size()) { joysticks[0]->set_input(Inputs::Joystick::Input(event->text()[0].toLatin1()), isPressed); } else { joysticks[0]->set_input(Inputs::Joystick::Input::Fire, isPressed); } break; } } } break; } return false; } void MainWindow::setMouseIsCaptured(bool isCaptured) { mouseIsCaptured = isCaptured; setWindowTitle(); } void MainWindow::moveMouse(QPoint vector) { std::unique_lock lock(machineMutex); auto mouseMachine = machine->mouse_machine(); if(!mouseMachine) return; mouseMachine->get_mouse().move(vector.x(), vector.y()); } void MainWindow::setButtonPressed(int index, bool isPressed) { std::unique_lock lock(machineMutex); auto mouseMachine = machine->mouse_machine(); if(!mouseMachine) return; mouseMachine->get_mouse().set_button_pressed(index, isPressed); } // MARK: - New Machine Creation #include "../../Analyser/Static/Acorn/Target.hpp" #include "../../Analyser/Static/Amiga/Target.hpp" #include "../../Analyser/Static/AmstradCPC/Target.hpp" #include "../../Analyser/Static/AppleII/Target.hpp" #include "../../Analyser/Static/AppleIIgs/Target.hpp" #include "../../Analyser/Static/AtariST/Target.hpp" #include "../../Analyser/Static/Commodore/Target.hpp" #include "../../Analyser/Static/Enterprise/Target.hpp" #include "../../Analyser/Static/Macintosh/Target.hpp" #include "../../Analyser/Static/MSX/Target.hpp" #include "../../Analyser/Static/Oric/Target.hpp" #include "../../Analyser/Static/PCCompatible/Target.hpp" #include "../../Analyser/Static/ZX8081/Target.hpp" #include "../../Analyser/Static/ZXSpectrum/Target.hpp" void MainWindow::startMachine() { const auto selectedTab = ui->machineSelectionTabs->currentWidget(); #define TEST(x) \ if(selectedTab == ui->x ## Tab) { \ start_##x(); \ return; \ } TEST(amiga); TEST(appleII); TEST(appleIIgs); TEST(amstradCPC); TEST(atariST); TEST(electron); TEST(enterprise); TEST(macintosh); TEST(msx); TEST(oric); TEST(pc); TEST(spectrum); TEST(vic20); TEST(zx80); TEST(zx81); #undef TEST } void MainWindow::start_appleII() { using Target = Analyser::Static::AppleII::Target; auto target = std::make_unique(); switch(ui->appleIIModelComboBox->currentIndex()) { default: target->model = Target::Model::II; break; case 1: target->model = Target::Model::IIplus; break; case 2: target->model = Target::Model::IIe; break; case 3: target->model = Target::Model::EnhancedIIe; break; } switch(ui->appleIIDiskControllerComboBox->currentIndex()) { default: target->disk_controller = Target::DiskController::SixteenSector; break; case 1: target->disk_controller = Target::DiskController::ThirteenSector; break; case 2: target->disk_controller = Target::DiskController::None; break; } target->has_mockingboard = ui->appleIIMockingboardCheckBox->isChecked(); launchTarget(std::move(target)); } void MainWindow::start_amiga() { using Target = Analyser::Static::Amiga::Target; auto target = std::make_unique(); switch(ui->amigaChipRAMComboBox->currentIndex()) { default: target->chip_ram = Target::ChipRAM::FiveHundredAndTwelveKilobytes; break; case 1: target->chip_ram = Target::ChipRAM::OneMegabyte; break; case 2: target->chip_ram = Target::ChipRAM::TwoMegabytes; break; } switch(ui->amigaFastRAMComboBox->currentIndex()) { default: target->fast_ram = Target::FastRAM::None; break; case 1: target->fast_ram = Target::FastRAM::OneMegabyte; break; case 2: target->fast_ram = Target::FastRAM::TwoMegabytes; break; case 3: target->fast_ram = Target::FastRAM::FourMegabytes; break; case 4: target->fast_ram = Target::FastRAM::EightMegabytes; break; } launchTarget(std::move(target)); } void MainWindow::start_appleIIgs() { using Target = Analyser::Static::AppleIIgs::Target; auto target = std::make_unique(); switch(ui->appleIIgsModelComboBox->currentIndex()) { default: target->model = Target::Model::ROM00; break; case 1: target->model = Target::Model::ROM01; break; case 2: target->model = Target::Model::ROM03; break; } switch(ui->appleIIgsMemorySizeComboBox->currentIndex()) { default: target->memory_model = Target::MemoryModel::TwoHundredAndFiftySixKB; break; case 1: target->memory_model = Target::MemoryModel::OneMB; break; case 2: target->memory_model = Target::MemoryModel::EightMB; break; } launchTarget(std::move(target)); } void MainWindow::start_amstradCPC() { using Target = Analyser::Static::AmstradCPC::Target; auto target = std::make_unique(); switch(ui->amstradCPCModelComboBox->currentIndex()) { default: target->model = Target::Model::CPC464; break; case 1: target->model = Target::Model::CPC664; break; case 2: target->model = Target::Model::CPC6128; break; } launchTarget(std::move(target)); } void MainWindow::start_atariST() { using Target = Analyser::Static::AtariST::Target; auto target = std::make_unique(); switch(ui->atariSTRAMComboBox->currentIndex()) { default: target->memory_size = Target::MemorySize::FiveHundredAndTwelveKilobytes; break; case 1: target->memory_size = Target::MemorySize::OneMegabyte; break; case 2: target->memory_size = Target::MemorySize::FourMegabytes; break; } launchTarget(std::move(target)); } void MainWindow::start_electron() { using Target = Analyser::Static::Acorn::Target; auto target = std::make_unique(); target->has_dfs = ui->electronDFSCheckBox->isChecked(); target->has_pres_adfs = ui->electronADFSCheckBox->isChecked(); target->has_ap6_rom = ui->electronAP6CheckBox->isChecked(); target->has_sideways_ram = ui->electronSidewaysRAMCheckBox->isChecked(); launchTarget(std::move(target)); } void MainWindow::start_enterprise() { using Target = Analyser::Static::Enterprise::Target; auto target = std::make_unique(); switch(ui->enterpriseModelComboBox->currentIndex()) { default: target->model = Target::Model::Enterprise64; break; case 1: target->model = Target::Model::Enterprise128; break; case 2: target->model = Target::Model::Enterprise256; break; } switch(ui->enterpriseSpeedComboBox->currentIndex()) { default: target->speed = Target::Speed::FourMHz; break; case 1: target->speed = Target::Speed::SixMHz; break; } switch(ui->enterpriseEXOSComboBox->currentIndex()) { default: target->exos_version = Target::EXOSVersion::v10; break; case 1: target->exos_version = Target::EXOSVersion::v20; break; case 2: target->exos_version = Target::EXOSVersion::v21; break; case 3: target->exos_version = Target::EXOSVersion::v23; break; } switch(ui->enterpriseBASICComboBox->currentIndex()) { default: target->basic_version = Target::BASICVersion::None; break; case 1: target->basic_version = Target::BASICVersion::v10; break; case 2: target->basic_version = Target::BASICVersion::v11; break; case 3: target->basic_version = Target::BASICVersion::v21; break; } switch(ui->enterpriseDOSComboBox->currentIndex()) { default: target->dos = Target::DOS::None; break; case 1: target->dos = Target::DOS::EXDOS; break; } launchTarget(std::move(target)); } void MainWindow::start_macintosh() { using Target = Analyser::Static::Macintosh::Target; auto target = std::make_unique(); switch(ui->macintoshModelComboBox->currentIndex()) { default: target->model = Target::Model::Mac128k; break; case 1: target->model = Target::Model::Mac512k; break; case 2: target->model = Target::Model::Mac512ke; break; case 3: target->model = Target::Model::MacPlus; break; } launchTarget(std::move(target)); } void MainWindow::start_msx() { using Target = Analyser::Static::MSX::Target; auto target = std::make_unique(); switch(ui->msxModelComboBox->currentIndex()) { default: target->model = Target::Model::MSX1; break; case 1: target->model = Target::Model::MSX2; break; } switch(ui->msxRegionComboBox->currentIndex()) { default: target->region = Target::Region::Europe; break; case 1: target->region = Target::Region::USA; break; case 2: target->region = Target::Region::Japan; break; } target->has_disk_drive = ui->msxDiskDriveCheckBox->isChecked(); target->has_msx_music = ui->msxMSXMUSICCheckBox->isChecked(); launchTarget(std::move(target)); } void MainWindow::start_oric() { using Target = Analyser::Static::Oric::Target; auto target = std::make_unique(); switch(ui->oricModelComboBox->currentIndex()) { default: target->rom = Target::ROM::BASIC10; break; case 1: target->rom = Target::ROM::BASIC11; break; case 2: target->rom = Target::ROM::Pravetz; break; } switch(ui->oricDiskInterfaceComboBox->currentIndex()) { default: target->disk_interface = Target::DiskInterface::None; break; case 1: target->disk_interface = Target::DiskInterface::Microdisc; break; case 2: target->disk_interface = Target::DiskInterface::Jasmin; break; case 3: target->disk_interface = Target::DiskInterface::Pravetz; break; case 4: target->disk_interface = Target::DiskInterface::BD500; break; } launchTarget(std::move(target)); } void MainWindow::start_pc() { using Target = Analyser::Static::PCCompatible::Target; auto target = std::make_unique(); switch(ui->pcSpeedComboBox->currentIndex()) { default: target->speed = Target::Speed::ApproximatelyOriginal; break; case 1: target->speed = Target::Speed::Fast; break; } switch(ui->pcVideoAdaptorComboBox->currentIndex()) { default: target->adaptor = Target::VideoAdaptor::MDA; break; case 1: target->adaptor = Target::VideoAdaptor::CGA; break; } launchTarget(std::move(target)); } void MainWindow::start_spectrum() { using Target = Analyser::Static::ZXSpectrum::Target; auto target = std::make_unique(); switch(ui->spectrumModelComboBox->currentIndex()) { default: target->model = Target::Model::SixteenK; break; case 1: target->model = Target::Model::FortyEightK; break; case 2: target->model = Target::Model::OneTwoEightK; break; case 3: target->model = Target::Model::Plus2; break; case 4: target->model = Target::Model::Plus2a; break; case 5: target->model = Target::Model::Plus3; break; } launchTarget(std::move(target)); } void MainWindow::start_vic20() { using Target = Analyser::Static::Commodore::Target; auto target = std::make_unique(); switch(ui->vic20RegionComboBox->currentIndex()) { default: target->region = Target::Region::European; break; case 1: target->region = Target::Region::American; break; case 2: target->region = Target::Region::Danish; break; case 3: target->region = Target::Region::Swedish; break; case 4: target->region = Target::Region::Japanese; break; } auto memoryModel = Target::MemoryModel::Unexpanded; switch(ui->vic20MemorySizeComboBox->currentIndex()) { default: break; case 1: memoryModel = Target::MemoryModel::EightKB; break; case 2: memoryModel = Target::MemoryModel::ThirtyTwoKB; break; } target->set_memory_model(memoryModel); target->has_c1540 = ui->vic20C1540CheckBox->isChecked(); launchTarget(std::move(target)); } void MainWindow::start_zx80() { using Target = Analyser::Static::ZX8081::Target; auto target = std::make_unique(); switch(ui->zx80MemorySizeComboBox->currentIndex()) { default: target->memory_model = Target::MemoryModel::Unexpanded; break; case 1: target->memory_model = Target::MemoryModel::SixteenKB; break; } target->is_ZX81 = false; target->ZX80_uses_ZX81_ROM = ui->zx80UseZX81ROMCheckBox->isChecked(); launchTarget(std::move(target)); } void MainWindow::start_zx81() { using Target = Analyser::Static::ZX8081::Target; auto target = std::make_unique(); switch(ui->zx81MemorySizeComboBox->currentIndex()) { default: target->memory_model = Target::MemoryModel::Unexpanded; break; case 1: target->memory_model = Target::MemoryModel::SixteenKB; break; } target->is_ZX81 = true; launchTarget(std::move(target)); } void MainWindow::launchTarget(std::unique_ptr &&target) { targets.clear(); targets.push_back(std::move(target)); launchMachine(); } // MARK: - UI state // An assumption made widely below is that it's more likely I'll preserve combo box text // than indices. This has historically been true on the Mac, as I tend to add additional // options but the existing text is rarely affected. #define AllSettings() \ /* Machine selection. */ \ Tabs(machineSelectionTabs, "machineSelection"); \ \ /* Amiga. */ \ ComboBox(amigaChipRAMComboBox, "amiga.chipRAM"); \ ComboBox(amigaFastRAMComboBox, "amiga.fastRAM"); \ \ /* Apple II. */ \ ComboBox(appleIIModelComboBox, "appleII.model"); \ ComboBox(appleIIDiskControllerComboBox, "appleII.diskController"); \ \ /* Apple IIgs. */ \ ComboBox(appleIIgsModelComboBox, "appleIIgs.model"); \ ComboBox(appleIIgsMemorySizeComboBox, "appleIIgs.memorySize"); \ \ /* Amstrad CPC. */ \ ComboBox(amstradCPCModelComboBox, "amstradcpc.model"); \ \ /* Atari ST. */ \ ComboBox(atariSTRAMComboBox, "atarist.memorySize"); \ \ /* Electron. */ \ CheckBox(electronDFSCheckBox, "electron.hasDFS"); \ CheckBox(electronADFSCheckBox, "electron.hasADFS"); \ CheckBox(electronAP6CheckBox, "electron.hasAP6"); \ CheckBox(electronSidewaysRAMCheckBox, "electron.fillSidewaysRAM"); \ \ /* Enterprise. */ \ ComboBox(enterpriseModelComboBox, "enterprise.model"); \ ComboBox(enterpriseSpeedComboBox, "enterprise.speed"); \ ComboBox(enterpriseEXOSComboBox, "enterprise.exos"); \ ComboBox(enterpriseBASICComboBox, "enterprise.basic"); \ ComboBox(enterpriseDOSComboBox, "enterprise.dos"); \ \ /* Macintosh. */ \ ComboBox(macintoshModelComboBox, "macintosh.model"); \ \ /* MSX. */ \ ComboBox(msxRegionComboBox, "msx.region"); \ CheckBox(msxDiskDriveCheckBox, "msx.hasDiskDrive"); \ \ /* Oric. */ \ ComboBox(oricModelComboBox, "msx.model"); \ ComboBox(oricDiskInterfaceComboBox, "msx.diskInterface"); \ \ /* Vic-20 */ \ ComboBox(vic20RegionComboBox, "vic20.region"); \ ComboBox(vic20MemorySizeComboBox, "vic20.memorySize"); \ CheckBox(vic20C1540CheckBox, "vic20.has1540"); \ \ /* ZX80. */ \ ComboBox(zx80MemorySizeComboBox, "zx80.memorySize"); \ CheckBox(zx80UseZX81ROMCheckBox, "zx80.usesZX81ROM"); \ \ /* ZX81. */ \ ComboBox(zx81MemorySizeComboBox, "zx81.memorySize"); void MainWindow::storeSelections() { Settings settings; #define Tabs(name, key) settings.setValue(key, ui->name->currentIndex()) #define CheckBox(name, key) settings.setValue(key, ui->name->isChecked()) #define ComboBox(name, key) settings.setValue(key, ui->name->currentText()) AllSettings(); #undef Tabs #undef CheckBox #undef ComboBox } void MainWindow::restoreSelections() { Settings settings; #define Tabs(name, key) ui->name->setCurrentIndex(settings.value(key).toInt()) #define CheckBox(name, key) ui->name->setCheckState(settings.value(key).toBool() ? Qt::Checked : Qt::Unchecked) #define ComboBox(name, key) ui->name->setCurrentText(settings.value(key).toString()) AllSettings(); #undef Tabs #undef CheckBox #undef ComboBox } // MARK: - Activity observation void MainWindow::addActivityObserver() { ledStatuses.clear(); auto activitySource = machine->activity_source(); if(!activitySource) return; setStatusBar(new QStatusBar()); activitySource->set_activity_observer(this); } void MainWindow::register_led(const std::string &name, uint8_t) { std::lock_guard guard(ledStatusesLock); ledStatuses[name] = false; QMetaObject::invokeMethod(this, "updateStatusBarText"); } void MainWindow::set_led_status(const std::string &name, bool isLit) { std::lock_guard guard(ledStatusesLock); ledStatuses[name] = isLit; QMetaObject::invokeMethod(this, "updateStatusBarText"); } void MainWindow::updateStatusBarText() { QString fullText; std::lock_guard guard(ledStatusesLock); for(const auto &pair: ledStatuses) { if(!fullText.isEmpty()) fullText += " | "; fullText += QString::fromStdString(pair.first); fullText += " "; fullText += pair.second ? "■" : "□"; } statusBar()->showMessage(fullText); }