// // CSElectron.m // Clock Signal // // Created by Thomas Harte on 04/01/2016. // Copyright © 2016 Thomas Harte. All rights reserved. // #import "CSElectron.h" #include "Electron.hpp" #import "CSMachine+Subclassing.h" #include "StaticAnalyser.hpp" #include "TapeUEF.hpp" @implementation CSElectron { Electron::Machine _electron; } - (CRTMachine::Machine * const)machine { return &_electron; } - (void)analyse:(NSURL *)url { StaticAnalyser::GetTargets([url fileSystemRepresentation]); } - (void)setOSROM:(nonnull NSData *)rom { @synchronized(self) { _electron.set_rom(Electron::ROMSlotOS, rom.length, (const uint8_t *)rom.bytes); } } - (void)setBASICROM:(nonnull NSData *)rom { @synchronized(self) { _electron.set_rom(Electron::ROMSlotBASIC, rom.length, (const uint8_t *)rom.bytes); } } - (void)setROM:(nonnull NSData *)rom slot:(int)slot { @synchronized(self) { _electron.set_rom((Electron::ROMSlot)slot, rom.length, (const uint8_t *)rom.bytes); } } /*- (BOOL)openUEFAtURL:(NSURL *)URL { @synchronized(self) { try { std::shared_ptr tape(new Storage::Tape::UEF([URL fileSystemRepresentation])); _electron.set_tape(tape); return YES; } catch(...) { return NO; } } }*/ - (void)clearAllKeys { @synchronized(self) { _electron.clear_all_keys(); } } - (void)setKey:(uint16_t)key isPressed:(BOOL)isPressed { @synchronized(self) { switch(key) { case VK_ANSI_0: _electron.set_key_state(Electron::Key::Key0, isPressed); break; case VK_ANSI_1: _electron.set_key_state(Electron::Key::Key1, isPressed); break; case VK_ANSI_2: _electron.set_key_state(Electron::Key::Key2, isPressed); break; case VK_ANSI_3: _electron.set_key_state(Electron::Key::Key3, isPressed); break; case VK_ANSI_4: _electron.set_key_state(Electron::Key::Key4, isPressed); break; case VK_ANSI_5: _electron.set_key_state(Electron::Key::Key5, isPressed); break; case VK_ANSI_6: _electron.set_key_state(Electron::Key::Key6, isPressed); break; case VK_ANSI_7: _electron.set_key_state(Electron::Key::Key7, isPressed); break; case VK_ANSI_8: _electron.set_key_state(Electron::Key::Key8, isPressed); break; case VK_ANSI_9: _electron.set_key_state(Electron::Key::Key9, isPressed); break; case VK_ANSI_Q: _electron.set_key_state(Electron::Key::KeyQ, isPressed); break; case VK_ANSI_W: _electron.set_key_state(Electron::Key::KeyW, isPressed); break; case VK_ANSI_E: _electron.set_key_state(Electron::Key::KeyE, isPressed); break; case VK_ANSI_R: _electron.set_key_state(Electron::Key::KeyR, isPressed); break; case VK_ANSI_T: _electron.set_key_state(Electron::Key::KeyT, isPressed); break; case VK_ANSI_Y: _electron.set_key_state(Electron::Key::KeyY, isPressed); break; case VK_ANSI_U: _electron.set_key_state(Electron::Key::KeyU, isPressed); break; case VK_ANSI_I: _electron.set_key_state(Electron::Key::KeyI, isPressed); break; case VK_ANSI_O: _electron.set_key_state(Electron::Key::KeyO, isPressed); break; case VK_ANSI_P: _electron.set_key_state(Electron::Key::KeyP, isPressed); break; case VK_ANSI_A: _electron.set_key_state(Electron::Key::KeyA, isPressed); break; case VK_ANSI_S: _electron.set_key_state(Electron::Key::KeyS, isPressed); break; case VK_ANSI_D: _electron.set_key_state(Electron::Key::KeyD, isPressed); break; case VK_ANSI_F: _electron.set_key_state(Electron::Key::KeyF, isPressed); break; case VK_ANSI_G: _electron.set_key_state(Electron::Key::KeyG, isPressed); break; case VK_ANSI_H: _electron.set_key_state(Electron::Key::KeyH, isPressed); break; case VK_ANSI_J: _electron.set_key_state(Electron::Key::KeyJ, isPressed); break; case VK_ANSI_K: _electron.set_key_state(Electron::Key::KeyK, isPressed); break; case VK_ANSI_L: _electron.set_key_state(Electron::Key::KeyL, isPressed); break; case VK_ANSI_Z: _electron.set_key_state(Electron::Key::KeyZ, isPressed); break; case VK_ANSI_X: _electron.set_key_state(Electron::Key::KeyX, isPressed); break; case VK_ANSI_C: _electron.set_key_state(Electron::Key::KeyC, isPressed); break; case VK_ANSI_V: _electron.set_key_state(Electron::Key::KeyV, isPressed); break; case VK_ANSI_B: _electron.set_key_state(Electron::Key::KeyB, isPressed); break; case VK_ANSI_N: _electron.set_key_state(Electron::Key::KeyN, isPressed); break; case VK_ANSI_M: _electron.set_key_state(Electron::Key::KeyM, isPressed); break; case VK_Space: _electron.set_key_state(Electron::Key::KeySpace, isPressed); break; case VK_ANSI_Grave: case VK_ANSI_Backslash: _electron.set_key_state(Electron::Key::KeyCopy, isPressed); break; case VK_Return: _electron.set_key_state(Electron::Key::KeyReturn, isPressed); break; case VK_ANSI_Minus: _electron.set_key_state(Electron::Key::KeyMinus, isPressed); break; case VK_RightArrow: _electron.set_key_state(Electron::Key::KeyRight, isPressed); break; case VK_LeftArrow: _electron.set_key_state(Electron::Key::KeyLeft, isPressed); break; case VK_DownArrow: _electron.set_key_state(Electron::Key::KeyDown, isPressed); break; case VK_UpArrow: _electron.set_key_state(Electron::Key::KeyUp, isPressed); break; case VK_Delete: _electron.set_key_state(Electron::Key::KeyDelete, isPressed); break; case VK_Escape: _electron.set_key_state(Electron::Key::KeyEscape, isPressed); break; case VK_ANSI_Comma: _electron.set_key_state(Electron::Key::KeyComma, isPressed); break; case VK_ANSI_Period: _electron.set_key_state(Electron::Key::KeyFullStop, isPressed); break; case VK_ANSI_Semicolon: _electron.set_key_state(Electron::Key::KeySemiColon, isPressed); break; case VK_ANSI_Quote: _electron.set_key_state(Electron::Key::KeyColon, isPressed); break; case VK_ANSI_Slash: _electron.set_key_state(Electron::Key::KeySlash, isPressed); break; case VK_Shift: _electron.set_key_state(Electron::Key::KeyShift, isPressed); break; case VK_Control: _electron.set_key_state(Electron::Key::KeyControl, isPressed); break; case VK_Command: case VK_Option: _electron.set_key_state(Electron::Key::KeyFunc, isPressed); break; case VK_F12: _electron.set_key_state(Electron::Key::KeyBreak, isPressed); break; default: // printf("%02x\n", key); break; } } } - (void)setUseFastLoadingHack:(BOOL)useFastLoadingHack { @synchronized(self) { _useFastLoadingHack = useFastLoadingHack; _electron.set_use_fast_tape_hack(useFastLoadingHack ? true : false); } } - (void)setUseTelevisionOutput:(BOOL)useTelevisionOutput { @synchronized(self) { _useTelevisionOutput = useTelevisionOutput; _electron.get_crt()->set_output_device(useTelevisionOutput ? Outputs::CRT::Television : Outputs::CRT::Monitor); } } @end