CLK/OSBindings/Mac/Clock Signal/Machine/Wrappers/CSOric.mm

//
//  CSOric.m
//  Clock Signal
//
//  Created by Thomas Harte on 11/10/2016.
//  Copyright © 2016 Thomas Harte. All rights reserved.
//

#import "CSOric.h"

#include "Oric.hpp"
#include "StaticAnalyser.hpp"

#import "CSMachine+Subclassing.h"
#import "NSData+StdVector.h"
#import "NSBundle+DataResource.h"

@implementation CSOric
{
	Oric::Machine _oric;
}

- (instancetype)init
{
	self = [super init];
	if(self)
	{
		NSData *basic10 = [self rom:@"basic10"];
		NSData *basic11 = [self rom:@"basic11"];
		NSData *microdisc = [self rom:@"microdisc"];

		if(basic10)		_oric.set_rom(Oric::BASIC10, basic10.stdVector8);
		if(basic11)		_oric.set_rom(Oric::BASIC11, basic11.stdVector8);
		if(microdisc)	_oric.set_rom(Oric::Microdisc, microdisc.stdVector8);
	}
	return self;
}

- (NSData *)rom:(NSString *)name
{
	return [[NSBundle mainBundle] dataForResource:name withExtension:@"rom" subdirectory:@"ROMImages/Oric"];
}

- (CRTMachine::Machine * const)machine
{
	return &_oric;
}

#pragma mark - CSKeyboardMachine

- (void)setKey:(uint16_t)key isPressed:(BOOL)isPressed
{
	@synchronized(self) {
		switch(key)
		{
			case VK_ANSI_0:		_oric.set_key_state(Oric::Key::Key0, isPressed);	break;
			case VK_ANSI_1:		_oric.set_key_state(Oric::Key::Key1, isPressed);	break;
			case VK_ANSI_2:		_oric.set_key_state(Oric::Key::Key2, isPressed);	break;
			case VK_ANSI_3:		_oric.set_key_state(Oric::Key::Key3, isPressed);	break;
			case VK_ANSI_4:		_oric.set_key_state(Oric::Key::Key4, isPressed);	break;
			case VK_ANSI_5:		_oric.set_key_state(Oric::Key::Key5, isPressed);	break;
			case VK_ANSI_6:		_oric.set_key_state(Oric::Key::Key6, isPressed);	break;
			case VK_ANSI_7:		_oric.set_key_state(Oric::Key::Key7, isPressed);	break;
			case VK_ANSI_8:		_oric.set_key_state(Oric::Key::Key8, isPressed);	break;
			case VK_ANSI_9:		_oric.set_key_state(Oric::Key::Key9, isPressed);	break;

			case VK_ANSI_Q:		_oric.set_key_state(Oric::Key::KeyQ, isPressed);	break;
			case VK_ANSI_W:		_oric.set_key_state(Oric::Key::KeyW, isPressed);	break;
			case VK_ANSI_E:		_oric.set_key_state(Oric::Key::KeyE, isPressed);	break;
			case VK_ANSI_R:		_oric.set_key_state(Oric::Key::KeyR, isPressed);	break;
			case VK_ANSI_T:		_oric.set_key_state(Oric::Key::KeyT, isPressed);	break;
			case VK_ANSI_Y:		_oric.set_key_state(Oric::Key::KeyY, isPressed);	break;
			case VK_ANSI_U:		_oric.set_key_state(Oric::Key::KeyU, isPressed);	break;
			case VK_ANSI_I:		_oric.set_key_state(Oric::Key::KeyI, isPressed);	break;
			case VK_ANSI_O:		_oric.set_key_state(Oric::Key::KeyO, isPressed);	break;
			case VK_ANSI_P:		_oric.set_key_state(Oric::Key::KeyP, isPressed);	break;
			case VK_ANSI_A:		_oric.set_key_state(Oric::Key::KeyA, isPressed);	break;
			case VK_ANSI_S:		_oric.set_key_state(Oric::Key::KeyS, isPressed);	break;
			case VK_ANSI_D:		_oric.set_key_state(Oric::Key::KeyD, isPressed);	break;
			case VK_ANSI_F:		_oric.set_key_state(Oric::Key::KeyF, isPressed);	break;
			case VK_ANSI_G:		_oric.set_key_state(Oric::Key::KeyG, isPressed);	break;
			case VK_ANSI_H:		_oric.set_key_state(Oric::Key::KeyH, isPressed);	break;
			case VK_ANSI_J:		_oric.set_key_state(Oric::Key::KeyJ, isPressed);	break;
			case VK_ANSI_K:		_oric.set_key_state(Oric::Key::KeyK, isPressed);	break;
			case VK_ANSI_L:		_oric.set_key_state(Oric::Key::KeyL, isPressed);	break;
			case VK_ANSI_Z:		_oric.set_key_state(Oric::Key::KeyZ, isPressed);	break;
			case VK_ANSI_X:		_oric.set_key_state(Oric::Key::KeyX, isPressed);	break;
			case VK_ANSI_C:		_oric.set_key_state(Oric::Key::KeyC, isPressed);	break;
			case VK_ANSI_V:		_oric.set_key_state(Oric::Key::KeyV, isPressed);	break;
			case VK_ANSI_B:		_oric.set_key_state(Oric::Key::KeyB, isPressed);	break;
			case VK_ANSI_N:		_oric.set_key_state(Oric::Key::KeyN, isPressed);	break;
			case VK_ANSI_M:		_oric.set_key_state(Oric::Key::KeyM, isPressed);	break;

			case VK_Space:			_oric.set_key_state(Oric::Key::KeySpace, isPressed);		break;
			case VK_Return:			_oric.set_key_state(Oric::Key::KeyReturn, isPressed);		break;
			case VK_ANSI_Minus:		_oric.set_key_state(Oric::Key::KeyMinus, isPressed);		break;
			case VK_ANSI_Equal:		_oric.set_key_state(Oric::Key::KeyEquals, isPressed);		break;
			case VK_ANSI_Backslash:
									_oric.set_key_state(Oric::Key::KeyBackSlash, isPressed);	break;
			case VK_ANSI_Slash:		_oric.set_key_state(Oric::Key::KeyForwardSlash, isPressed);	break;

			case VK_ANSI_LeftBracket:
									_oric.set_key_state(Oric::Key::KeyOpenSquare, isPressed);	break;
			case VK_ANSI_RightBracket:
									_oric.set_key_state(Oric::Key::KeyCloseSquare, isPressed);	break;
			case VK_ANSI_Quote:		_oric.set_key_state(Oric::Key::KeyQuote, isPressed);		break;

			case VK_RightArrow:		_oric.set_key_state(Oric::Key::KeyRight, isPressed);		break;
			case VK_LeftArrow:		_oric.set_key_state(Oric::Key::KeyLeft, isPressed);			break;
			case VK_DownArrow:		_oric.set_key_state(Oric::Key::KeyDown, isPressed);			break;
			case VK_UpArrow:		_oric.set_key_state(Oric::Key::KeyUp, isPressed);			break;

			case VK_Delete:			_oric.set_key_state(Oric::Key::KeyDelete, isPressed);		break;
			case VK_Escape:			_oric.set_key_state(Oric::Key::KeyEscape, isPressed);		break;

			case VK_ANSI_Comma:		_oric.set_key_state(Oric::Key::KeyComma, isPressed);		break;
			case VK_ANSI_Period:	_oric.set_key_state(Oric::Key::KeyFullStop, isPressed);		break;

			case VK_ANSI_Semicolon:
									_oric.set_key_state(Oric::Key::KeySemiColon, isPressed);	break;

			case VK_Shift:			_oric.set_key_state(Oric::Key::KeyLeftShift, isPressed);	break;
			case VK_RightShift:		_oric.set_key_state(Oric::Key::KeyRightShift, isPressed);	break;
			case VK_Control:		_oric.set_key_state(Oric::Key::KeyControl, isPressed);		break;

			case VK_ANSI_Grave:
			case VK_F12:			_oric.set_key_state(Oric::Key::KeyNMI, isPressed);		break;

			default:
				printf("%02x\n", key);
			break;
		}
	}
}

- (void)clearAllKeys
{
	_oric.clear_all_keys();
}

#pragma mark - Options

- (void)setUseFastLoadingHack:(BOOL)useFastLoadingHack {
	@synchronized(self) {
		_useFastLoadingHack = useFastLoadingHack;
		_oric.set_use_fast_tape_hack(useFastLoadingHack ? true : false);
	}
}

- (void)setUseCompositeOutput:(BOOL)useCompositeOutput {
	@synchronized(self) {
		_useCompositeOutput = useCompositeOutput;
		_oric.get_crt()->set_output_device(useCompositeOutput ? Outputs::CRT::Television : Outputs::CRT::Monitor);
	}
}

@end
Added enough wiring to get Oric TAPs through to a completely unimplemented Oric emulation. 2016-10-12 02:20:13 +00:00			`//`
			`// CSOric.m`
			`// Clock Signal`
			`//`
			`// Created by Thomas Harte on 11/10/2016.`
			`// Copyright © 2016 Thomas Harte. All rights reserved.`
			`//`

			`#import "CSOric.h"`

			`#include "Oric.hpp"`
			`#include "StaticAnalyser.hpp"`

			`#import "CSMachine+Subclassing.h"`
			`#import "NSData+StdVector.h"`
			`#import "NSBundle+DataResource.h"`

Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`@implementation CSOric`
			`{`
Added enough wiring to get Oric TAPs through to a completely unimplemented Oric emulation. 2016-10-12 02:20:13 +00:00			`Oric::Machine _oric;`
			`}`

Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`- (instancetype)init`
			`{`
Ensured that the ROM gets installed. So next for some video action? 2016-10-12 22:51:02 +00:00			`self = [super init];`
			`if(self)`
			`{`
The emulated Oric now has access to both versions of the BASIC ROM and picks between them based on the static analyser's recommendation. 2016-11-15 02:39:16 +00:00			`NSData *basic10 = [self rom:@"basic10"];`
Any Oric-format disks that are inserted now make it all the way to the Oric, along with a request to emulate the Microdisc. It has received a copy of the ROM. The ball is entirely in its court now. 2016-11-21 12:59:25 +00:00			`NSData *basic11 = [self rom:@"basic11"];`
			`NSData *microdisc = [self rom:@"microdisc"];`
The emulated Oric now has access to both versions of the BASIC ROM and picks between them based on the static analyser's recommendation. 2016-11-15 02:39:16 +00:00
Any Oric-format disks that are inserted now make it all the way to the Oric, along with a request to emulate the Microdisc. It has received a copy of the ROM. The ball is entirely in its court now. 2016-11-21 12:59:25 +00:00			`if(basic10) _oric.set_rom(Oric::BASIC10, basic10.stdVector8);`
			`if(basic11) _oric.set_rom(Oric::BASIC11, basic11.stdVector8);`
			`if(microdisc) _oric.set_rom(Oric::Microdisc, microdisc.stdVector8);`
Ensured that the ROM gets installed. So next for some video action? 2016-10-12 22:51:02 +00:00			`}`
			`return self;`
			`}`

			`- (NSData )rom:(NSString )name`
			`{`
			`return [[NSBundle mainBundle] dataForResource:name withExtension:@"rom" subdirectory:@"ROMImages/Oric"];`
			`}`

Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`- (CRTMachine::Machine * const)machine`
			`{`
Added enough wiring to get Oric TAPs through to a completely unimplemented Oric emulation. 2016-10-12 02:20:13 +00:00			`return &_oric;`
			`}`

Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`#pragma mark - CSKeyboardMachine`

			`- (void)setKey:(uint16_t)key isPressed:(BOOL)isPressed`
			`{`
Started iterating towards having an AY and a fully-working keyboard. 2016-10-15 01:18:03 +00:00			`@synchronized(self) {`
			`switch(key)`
			`{`
Continued in my effort to wire up a keyboard. Will need further to continue. 2016-10-15 01:35:15 +00:00			`case VK_ANSI_0: _oric.set_key_state(Oric::Key::Key0, isPressed); break;`
Started iterating towards having an AY and a fully-working keyboard. 2016-10-15 01:18:03 +00:00			`case VK_ANSI_1: _oric.set_key_state(Oric::Key::Key1, isPressed); break;`
			`case VK_ANSI_2: _oric.set_key_state(Oric::Key::Key2, isPressed); break;`
			`case VK_ANSI_3: _oric.set_key_state(Oric::Key::Key3, isPressed); break;`
			`case VK_ANSI_4: _oric.set_key_state(Oric::Key::Key4, isPressed); break;`
			`case VK_ANSI_5: _oric.set_key_state(Oric::Key::Key5, isPressed); break;`
			`case VK_ANSI_6: _oric.set_key_state(Oric::Key::Key6, isPressed); break;`
			`case VK_ANSI_7: _oric.set_key_state(Oric::Key::Key7, isPressed); break;`
			`case VK_ANSI_8: _oric.set_key_state(Oric::Key::Key8, isPressed); break;`
			`case VK_ANSI_9: _oric.set_key_state(Oric::Key::Key9, isPressed); break;`

			`case VK_ANSI_Q: _oric.set_key_state(Oric::Key::KeyQ, isPressed); break;`
			`case VK_ANSI_W: _oric.set_key_state(Oric::Key::KeyW, isPressed); break;`
			`case VK_ANSI_E: _oric.set_key_state(Oric::Key::KeyE, isPressed); break;`
			`case VK_ANSI_R: _oric.set_key_state(Oric::Key::KeyR, isPressed); break;`
			`case VK_ANSI_T: _oric.set_key_state(Oric::Key::KeyT, isPressed); break;`
			`case VK_ANSI_Y: _oric.set_key_state(Oric::Key::KeyY, isPressed); break;`
			`case VK_ANSI_U: _oric.set_key_state(Oric::Key::KeyU, isPressed); break;`
			`case VK_ANSI_I: _oric.set_key_state(Oric::Key::KeyI, isPressed); break;`
			`case VK_ANSI_O: _oric.set_key_state(Oric::Key::KeyO, isPressed); break;`
			`case VK_ANSI_P: _oric.set_key_state(Oric::Key::KeyP, isPressed); break;`
			`case VK_ANSI_A: _oric.set_key_state(Oric::Key::KeyA, isPressed); break;`
			`case VK_ANSI_S: _oric.set_key_state(Oric::Key::KeyS, isPressed); break;`
			`case VK_ANSI_D: _oric.set_key_state(Oric::Key::KeyD, isPressed); break;`
			`case VK_ANSI_F: _oric.set_key_state(Oric::Key::KeyF, isPressed); break;`
			`case VK_ANSI_G: _oric.set_key_state(Oric::Key::KeyG, isPressed); break;`
			`case VK_ANSI_H: _oric.set_key_state(Oric::Key::KeyH, isPressed); break;`
			`case VK_ANSI_J: _oric.set_key_state(Oric::Key::KeyJ, isPressed); break;`
			`case VK_ANSI_K: _oric.set_key_state(Oric::Key::KeyK, isPressed); break;`
			`case VK_ANSI_L: _oric.set_key_state(Oric::Key::KeyL, isPressed); break;`
			`case VK_ANSI_Z: _oric.set_key_state(Oric::Key::KeyZ, isPressed); break;`
			`case VK_ANSI_X: _oric.set_key_state(Oric::Key::KeyX, isPressed); break;`
			`case VK_ANSI_C: _oric.set_key_state(Oric::Key::KeyC, isPressed); break;`
			`case VK_ANSI_V: _oric.set_key_state(Oric::Key::KeyV, isPressed); break;`
			`case VK_ANSI_B: _oric.set_key_state(Oric::Key::KeyB, isPressed); break;`
			`case VK_ANSI_N: _oric.set_key_state(Oric::Key::KeyN, isPressed); break;`
			`case VK_ANSI_M: _oric.set_key_state(Oric::Key::KeyM, isPressed); break;`

			`case VK_Space: _oric.set_key_state(Oric::Key::KeySpace, isPressed); break;`
			`case VK_Return: _oric.set_key_state(Oric::Key::KeyReturn, isPressed); break;`
			`case VK_ANSI_Minus: _oric.set_key_state(Oric::Key::KeyMinus, isPressed); break;`
Added in the missing keys; added variable phase to the video. 2016-10-15 02:39:27 +00:00			`case VK_ANSI_Equal: _oric.set_key_state(Oric::Key::KeyEquals, isPressed); break;`
			`case VK_ANSI_Backslash:`
			`_oric.set_key_state(Oric::Key::KeyBackSlash, isPressed); break;`
			`case VK_ANSI_Slash: _oric.set_key_state(Oric::Key::KeyForwardSlash, isPressed); break;`

			`case VK_ANSI_LeftBracket:`
			`_oric.set_key_state(Oric::Key::KeyOpenSquare, isPressed); break;`
			`case VK_ANSI_RightBracket:`
			`_oric.set_key_state(Oric::Key::KeyCloseSquare, isPressed); break;`
			`case VK_ANSI_Quote: _oric.set_key_state(Oric::Key::KeyQuote, isPressed); break;`
Started iterating towards having an AY and a fully-working keyboard. 2016-10-15 01:18:03 +00:00
			`case VK_RightArrow: _oric.set_key_state(Oric::Key::KeyRight, isPressed); break;`
			`case VK_LeftArrow: _oric.set_key_state(Oric::Key::KeyLeft, isPressed); break;`
			`case VK_DownArrow: _oric.set_key_state(Oric::Key::KeyDown, isPressed); break;`
			`case VK_UpArrow: _oric.set_key_state(Oric::Key::KeyUp, isPressed); break;`

			`case VK_Delete: _oric.set_key_state(Oric::Key::KeyDelete, isPressed); break;`
			`case VK_Escape: _oric.set_key_state(Oric::Key::KeyEscape, isPressed); break;`

			`case VK_ANSI_Comma: _oric.set_key_state(Oric::Key::KeyComma, isPressed); break;`
			`case VK_ANSI_Period: _oric.set_key_state(Oric::Key::KeyFullStop, isPressed); break;`

			`case VK_ANSI_Semicolon:`
			`_oric.set_key_state(Oric::Key::KeySemiColon, isPressed); break;`

			`case VK_Shift: _oric.set_key_state(Oric::Key::KeyLeftShift, isPressed); break;`
			`case VK_RightShift: _oric.set_key_state(Oric::Key::KeyRightShift, isPressed); break;`
			`case VK_Control: _oric.set_key_state(Oric::Key::KeyControl, isPressed); break;`

			`case VK_ANSI_Grave:`
			`case VK_F12: _oric.set_key_state(Oric::Key::KeyNMI, isPressed); break;`

			`default:`
			`printf("%02x\n", key);`
			`break;`
			`}`
			`}`
Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`}`

			`- (void)clearAllKeys`
			`{`
Created an options panel for the Oric. Which involved far too much copy and paste from the Electron. Time to figure out how to generalise this stuff, probably. 2016-10-20 02:56:14 +00:00			`_oric.clear_all_keys();`
			`}`

			`#pragma mark - Options`

Made fast loading optional. 2016-11-03 11:59:30 +00:00			`- (void)setUseFastLoadingHack:(BOOL)useFastLoadingHack {`
			`@synchronized(self) {`
			`_useFastLoadingHack = useFastLoadingHack;`
			`_oric.set_use_fast_tape_hack(useFastLoadingHack ? true : false);`
			`}`
			`}`

Created an options panel for the Oric. Which involved far too much copy and paste from the Electron. Time to figure out how to generalise this stuff, probably. 2016-10-20 02:56:14 +00:00			`- (void)setUseCompositeOutput:(BOOL)useCompositeOutput {`
			`@synchronized(self) {`
			`_useCompositeOutput = useCompositeOutput;`
			`_oric.get_crt()->set_output_device(useCompositeOutput ? Outputs::CRT::Television : Outputs::CRT::Monitor);`
			`}`
Set every single key to be NMI, in order to be able to progress with the diagnostics cartridge. 2016-10-13 22:56:55 +00:00			`}`

Added enough wiring to get Oric TAPs through to a completely unimplemented Oric emulation. 2016-10-12 02:20:13 +00:00			`@end`