CLK/Machines/Electron/Electron.hpp

//
//  Electron.hpp
//  Clock Signal
//
//  Created by Thomas Harte on 03/01/2016.
//  Copyright © 2016 Thomas Harte. All rights reserved.
//

#ifndef Electron_hpp
#define Electron_hpp

#include "../../Processors/6502/CPU6502.hpp"
#include "../../Outputs/CRT.hpp"
#include "../../Outputs/Speaker.hpp"
#include "../../Storage/Tape/Tape.hpp"
#include <stdint.h>
#include "Atari2600Inputs.h"

namespace Electron {

enum ROMSlot: uint8_t {
	ROMSlot0 = 0,
	ROMSlot1,	ROMSlot2,	ROMSlot3,
	ROMSlot4,	ROMSlot5,	ROMSlot6,	ROMSlot7,

	ROMSlotKeyboard = 8,	ROMSlot9,
	ROMSlotBASIC = 10,		ROMSlot11,

	ROMSlot12,	ROMSlot13,	ROMSlot14,	ROMSlot15,

	ROMSlotOS
};

enum Interrupt: uint8_t {
	InterruptDisplayEnd			= 0x04,
	InterruptRealTimeClock		= 0x08,
	InterruptTransmitDataEmpty	= 0x10,
	InterruptReceiveDataFull	= 0x20,
	InterruptHighToneDetect		= 0x40
};

enum Key: uint16_t {
	KeySpace		= 0x0000 | 0x08,										KeyCopy			= 0x0000 | 0x02,	KeyRight		= 0x0000 | 0x01,
	KeyDelete		= 0x0010 | 0x08,	KeyReturn		= 0x0010 | 0x04,	KeyDown			= 0x0010 | 0x02,	KeyLeft			= 0x0010 | 0x01,
										KeyColon		= 0x0020 | 0x04,	KeyUp			= 0x0020 | 0x02,	KeyMinus		= 0x0020 | 0x01,
	KeySlash		= 0x0030 | 0x08,	KeySemiColon	= 0x0030 | 0x04,	KeyP			= 0x0030 | 0x02,	Key0			= 0x0030 | 0x01,
	KeyFullStop		= 0x0040 | 0x08,	KeyL			= 0x0040 | 0x04,	KeyO			= 0x0040 | 0x02,	Key9			= 0x0040 | 0x01,
	KeyComma		= 0x0050 | 0x08,	KeyK			= 0x0050 | 0x04,	KeyI			= 0x0050 | 0x02,	Key8			= 0x0050 | 0x01,
	KeyM			= 0x0060 | 0x08,	KeyJ			= 0x0060 | 0x04,	KeyU			= 0x0060 | 0x02,	Key7			= 0x0060 | 0x01,
	KeyN			= 0x0070 | 0x08,	KeyH			= 0x0070 | 0x04,	KeyY			= 0x0070 | 0x02,	Key6			= 0x0070 | 0x01,
	KeyB			= 0x0080 | 0x08,	KeyG			= 0x0080 | 0x04,	KeyT			= 0x0080 | 0x02,	Key5			= 0x0080 | 0x01,
	KeyV			= 0x0090 | 0x08,	KeyF			= 0x0090 | 0x04,	KeyR			= 0x0090 | 0x02,	Key4			= 0x0090 | 0x01,
	KeyC			= 0x00a0 | 0x08,	KeyD			= 0x00a0 | 0x04,	KeyE			= 0x00a0 | 0x02,	Key3			= 0x00a0 | 0x01,
	KeyX			= 0x00b0 | 0x08,	KeyS			= 0x00b0 | 0x04,	KeyW			= 0x00b0 | 0x02,	Key2			= 0x00b0 | 0x01,
	KeyZ			= 0x00c0 | 0x08,	KeyA			= 0x00c0 | 0x04,	KeyQ			= 0x00c0 | 0x02,	Key1			= 0x00c0 | 0x01,
	KeyShift		= 0x00d0 | 0x08,	KeyControl		= 0x00d0 | 0x04,	KeyFunc			= 0x00d0 | 0x02,	KeyEscape		= 0x00d0 | 0x01,

	KeyBreak		= 0xffff
};

class Machine: public CPU6502::Processor<Machine> {

	public:

		Machine();
		~Machine();

		unsigned int perform_bus_operation(CPU6502::BusOperation operation, uint16_t address, uint8_t *value);

		void set_rom(ROMSlot slot, size_t length, const uint8_t *data);
		void set_tape(std::shared_ptr<Storage::Tape> tape);

		void set_key_state(Key key, bool isPressed);

		Outputs::CRT *get_crt() { return _crt; }
		Outputs::Speaker *get_speaker() { return &_speaker; }
		const char *get_signal_decoder();

	private:

		inline void update_display();
		inline void update_audio();
		inline void signal_interrupt(Interrupt interrupt);
		inline void evaluate_interrupts();

		inline void get_next_tape_pulse();
		inline void push_tape_bit(uint16_t bit);

		// Things that directly constitute the memory map.
		uint8_t _roms[16][16384];
		uint8_t _os[16384], _ram[32768];

		// Things affected by registers, explicitly or otherwise.
		uint8_t _interruptStatus, _interruptControl;
		uint8_t _palette[16];
		uint8_t _keyStates[14];
		ROMSlot _activeRom;
		uint8_t _screenMode;
		uint16_t _screenModeBaseAddress;
		uint16_t _startScreenAddress;

		// Counters related to simultaneous subsystems;
		int _frameCycles, _displayOutputPosition, _audioOutputPosition, _audioOutputPositionError;

		// Display generation.
		uint16_t _startLineAddress, _currentScreenAddress;
		int _currentOutputLine;
		uint8_t *_currentLine;

		// Tape.
		struct Tape {
			std::shared_ptr<Storage::Tape> media;
			Storage::Tape::Pulse currentPulse;
			std::shared_ptr<SignalProcessing::Stepper> pulseStepper;
			uint32_t time_into_pulse;
			bool is_running;
			int bits_since_start;

			uint16_t dataRegister;

			enum {
				Long, Short, Unrecognised
			} crossings[4];
		} _tape;

		// Outputs.
		Outputs::CRT *_crt;

		class Speaker: public ::Outputs::Filter<Speaker> {
			public:
				void set_divider(uint8_t divider);

				void set_is_enabled(bool is_enabled);
				inline bool get_is_enabled() { return _is_enabled; }

				void get_samples(unsigned int number_of_samples, int16_t *target);
				void skip_samples(unsigned int number_of_samples);

				Speaker();
				~Speaker();

			private:
				unsigned int _counter;
				uint8_t _divider;
				bool _is_enabled;
				int16_t _output_level;

		} _speaker;
};

}

#endif /* Electron_hpp */
Started working on a shell for the Electron emulation, including factoring out the common CRT delegate -> Objective-C bridging, serial dispatch queue and frameskipping logic from the Atari 2600 shell. 2016-01-05 04:12:47 +00:00			`//`
			`// Electron.hpp`
			`// Clock Signal`
			`//`
			`// Created by Thomas Harte on 03/01/2016.`
			`// Copyright © 2016 Thomas Harte. All rights reserved.`
			`//`

			`#ifndef Electron_hpp`
			`#define Electron_hpp`

			`#include "../../Processors/6502/CPU6502.hpp"`
			`#include "../../Outputs/CRT.hpp"`
Tidied a little, started working towards supporting speaker output. 2016-01-13 03:19:56 +00:00			`#include "../../Outputs/Speaker.hpp"`
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`#include "../../Storage/Tape/Tape.hpp"`
Started working on a shell for the Electron emulation, including factoring out the common CRT delegate -> Objective-C bridging, serial dispatch queue and frameskipping logic from the Atari 2600 shell. 2016-01-05 04:12:47 +00:00			`#include <stdint.h>`
			`#include "Atari2600Inputs.h"`

			`namespace Electron {`

Added just enough that this is probably a successful boot. I guess I'm going to need to get invested in graphics next? Hmmm. 2016-01-08 02:01:13 +00:00			`enum ROMSlot: uint8_t {`
This at least now connects up a CRT, though it never talks to it. 2016-01-08 03:26:49 +00:00			`ROMSlot0 = 0,`
			`ROMSlot1, ROMSlot2, ROMSlot3,`
			`ROMSlot4, ROMSlot5, ROMSlot6, ROMSlot7,`
Added just enough that this is probably a successful boot. I guess I'm going to need to get invested in graphics next? Hmmm. 2016-01-08 02:01:13 +00:00
			`ROMSlotKeyboard = 8, ROMSlot9,`
			`ROMSlotBASIC = 10, ROMSlot11,`

This at least now connects up a CRT, though it never talks to it. 2016-01-08 03:26:49 +00:00			`ROMSlot12, ROMSlot13, ROMSlot14, ROMSlot15,`
Added just enough that this is probably a successful boot. I guess I'm going to need to get invested in graphics next? Hmmm. 2016-01-08 02:01:13 +00:00
			`ROMSlotOS`
You now get an Electron only if you ask for a new file. That'll do for now while it's the only thing that one might want to start without supplying a file. The 6502 now starts from a defined point — being reset. The Electron is starting to grow the absolute most simple buds of its memory map. 2016-01-07 02:09:49 +00:00			`};`

This is intended to be enough to start producing something of an output. But something's obviously still broken. 2016-01-10 01:26:40 +00:00			`enum Interrupt: uint8_t {`
Made an attempt at getting some interrupts all up inside this thing. 2016-01-11 00:06:46 +00:00			`InterruptDisplayEnd = 0x04,`
			`InterruptRealTimeClock = 0x08,`
Fixed: turned out the power-on bit was being cleared. 2016-01-10 22:17:39 +00:00			`InterruptTransmitDataEmpty = 0x10,`
			`InterruptReceiveDataFull = 0x20,`
			`InterruptHighToneDetect = 0x40`
This is intended to be enough to start producing something of an output. But something's obviously still broken. 2016-01-10 01:26:40 +00:00			`};`

Implemented keyboard input. 2016-01-12 00:48:31 +00:00			`enum Key: uint16_t {`
Tidied a little, started working towards supporting speaker output. 2016-01-13 03:19:56 +00:00			`KeySpace = 0x0000 \| 0x08, KeyCopy = 0x0000 \| 0x02, KeyRight = 0x0000 \| 0x01,`
			`KeyDelete = 0x0010 \| 0x08, KeyReturn = 0x0010 \| 0x04, KeyDown = 0x0010 \| 0x02, KeyLeft = 0x0010 \| 0x01,`
			`KeyColon = 0x0020 \| 0x04, KeyUp = 0x0020 \| 0x02, KeyMinus = 0x0020 \| 0x01,`
			`KeySlash = 0x0030 \| 0x08, KeySemiColon = 0x0030 \| 0x04, KeyP = 0x0030 \| 0x02, Key0 = 0x0030 \| 0x01,`
			`KeyFullStop = 0x0040 \| 0x08, KeyL = 0x0040 \| 0x04, KeyO = 0x0040 \| 0x02, Key9 = 0x0040 \| 0x01,`
			`KeyComma = 0x0050 \| 0x08, KeyK = 0x0050 \| 0x04, KeyI = 0x0050 \| 0x02, Key8 = 0x0050 \| 0x01,`
			`KeyM = 0x0060 \| 0x08, KeyJ = 0x0060 \| 0x04, KeyU = 0x0060 \| 0x02, Key7 = 0x0060 \| 0x01,`
			`KeyN = 0x0070 \| 0x08, KeyH = 0x0070 \| 0x04, KeyY = 0x0070 \| 0x02, Key6 = 0x0070 \| 0x01,`
			`KeyB = 0x0080 \| 0x08, KeyG = 0x0080 \| 0x04, KeyT = 0x0080 \| 0x02, Key5 = 0x0080 \| 0x01,`
			`KeyV = 0x0090 \| 0x08, KeyF = 0x0090 \| 0x04, KeyR = 0x0090 \| 0x02, Key4 = 0x0090 \| 0x01,`
			`KeyC = 0x00a0 \| 0x08, KeyD = 0x00a0 \| 0x04, KeyE = 0x00a0 \| 0x02, Key3 = 0x00a0 \| 0x01,`
			`KeyX = 0x00b0 \| 0x08, KeyS = 0x00b0 \| 0x04, KeyW = 0x00b0 \| 0x02, Key2 = 0x00b0 \| 0x01,`
			`KeyZ = 0x00c0 \| 0x08, KeyA = 0x00c0 \| 0x04, KeyQ = 0x00c0 \| 0x02, Key1 = 0x00c0 \| 0x01,`
			`KeyShift = 0x00d0 \| 0x08, KeyControl = 0x00d0 \| 0x04, KeyFunc = 0x00d0 \| 0x02, KeyEscape = 0x00d0 \| 0x01,`
Implemented keyboard input. 2016-01-12 00:48:31 +00:00
			`KeyBreak = 0xffff`
			`};`

Started working on a shell for the Electron emulation, including factoring out the common CRT delegate -> Objective-C bridging, serial dispatch queue and frameskipping logic from the Atari 2600 shell. 2016-01-05 04:12:47 +00:00			`class Machine: public CPU6502::Processor<Machine> {`

			`public:`

			`Machine();`
			`~Machine();`

			`unsigned int perform_bus_operation(CPU6502::BusOperation operation, uint16_t address, uint8_t *value);`

You now get an Electron only if you ask for a new file. That'll do for now while it's the only thing that one might want to start without supplying a file. The 6502 now starts from a defined point — being reset. The Electron is starting to grow the absolute most simple buds of its memory map. 2016-01-07 02:09:49 +00:00			`void set_rom(ROMSlot slot, size_t length, const uint8_t *data);`
Moved set_tape so that the inline definition of get_next_tape_pulse is visible to it. Also eliminated some dead typedefs. 2016-01-20 13:27:25 +00:00			`void set_tape(std::shared_ptr<Storage::Tape> tape);`
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00
Implemented keyboard input. 2016-01-12 00:48:31 +00:00			`void set_key_state(Key key, bool isPressed);`
You now get an Electron only if you ask for a new file. That'll do for now while it's the only thing that one might want to start without supplying a file. The 6502 now starts from a defined point — being reset. The Electron is starting to grow the absolute most simple buds of its memory map. 2016-01-07 02:09:49 +00:00
This at least now connects up a CRT, though it never talks to it. 2016-01-08 03:26:49 +00:00			`Outputs::CRT *get_crt() { return _crt; }`
Edging towards audio output; the speaker is given appropriate input and output rates, and then updated with current divider and enabled/disabled status. 2016-01-14 02:03:43 +00:00			`Outputs::Speaker *get_speaker() { return &_speaker; }`
Made an attempt to get RGB output mode up and running, and showing at least a box where pixels would be. 2016-01-10 02:32:56 +00:00			`const char *get_signal_decoder();`
This at least now connects up a CRT, though it never talks to it. 2016-01-08 03:26:49 +00:00
You now get an Electron only if you ask for a new file. That'll do for now while it's the only thing that one might want to start without supplying a file. The 6502 now starts from a defined point — being reset. The Electron is starting to grow the absolute most simple buds of its memory map. 2016-01-07 02:09:49 +00:00			`private:`
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00
			`inline void update_display();`
			`inline void update_audio();`
			`inline void signal_interrupt(Interrupt interrupt);`
			`inline void evaluate_interrupts();`

			`inline void get_next_tape_pulse();`
			`inline void push_tape_bit(uint16_t bit);`

			`// Things that directly constitute the memory map.`
Made an attempt at correct timing, adding support for additional paged ROMs, added file association for .rom. 2016-01-13 03:34:26 +00:00			`uint8_t _roms[16][16384];`
			`uint8_t _os[16384], _ram[32768];`
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00
			`// Things affected by registers, explicitly or otherwise.`
Added just enough that this is probably a successful boot. I guess I'm going to need to get invested in graphics next? Hmmm. 2016-01-08 02:01:13 +00:00			`uint8_t _interruptStatus, _interruptControl;`
Implemented keyboard input. 2016-01-12 00:48:31 +00:00			`uint8_t _palette[16];`
			`uint8_t _keyStates[14];`
Added just enough that this is probably a successful boot. I guess I'm going to need to get invested in graphics next? Hmmm. 2016-01-08 02:01:13 +00:00			`ROMSlot _activeRom;`
Made an attempt to get video output correct. 2016-01-12 03:08:30 +00:00			`uint8_t _screenMode;`
			`uint16_t _screenModeBaseAddress;`
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`uint16_t _startScreenAddress;`
This at least now connects up a CRT, though it never talks to it. 2016-01-08 03:26:49 +00:00
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`// Counters related to simultaneous subsystems;`
Edging towards audio output; the speaker is given appropriate input and output rates, and then updated with current divider and enabled/disabled status. 2016-01-14 02:03:43 +00:00			`int _frameCycles, _displayOutputPosition, _audioOutputPosition, _audioOutputPositionError;`

Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`// Display generation.`
			`uint16_t _startLineAddress, _currentScreenAddress;`
Made an attempt to get video output correct. 2016-01-12 03:08:30 +00:00			`int _currentOutputLine;`
Hard-coded to 40 columns of black and white, here's some text, at least. 2016-01-10 03:39:46 +00:00			`uint8_t *_currentLine;`
This is intended to be enough to start producing something of an output. But something's obviously still broken. 2016-01-10 01:26:40 +00:00
Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`// Tape.`
			`struct Tape {`
			`std::shared_ptr<Storage::Tape> media;`
			`Storage::Tape::Pulse currentPulse;`
			`std::shared_ptr<SignalProcessing::Stepper> pulseStepper;`
			`uint32_t time_into_pulse;`
			`bool is_running;`
			`int bits_since_start;`

Thus did the first UEF load. 2016-01-20 04:03:27 +00:00			`uint16_t dataRegister;`

Some data is marginally reaching the CPU from the tape. 2016-01-20 03:05:34 +00:00			`enum {`
			`Long, Short, Unrecognised`
			`} crossings[4];`
			`} _tape;`

			`// Outputs.`
			`Outputs::CRT *_crt;`
Tidied a little, started working towards supporting speaker output. 2016-01-13 03:19:56 +00:00
Edging towards audio output; the speaker is given appropriate input and output rates, and then updated with current divider and enabled/disabled status. 2016-01-14 02:03:43 +00:00			`class Speaker: public ::Outputs::Filter<Speaker> {`
			`public:`
Resolved some errors. 2016-01-14 03:11:33 +00:00			`void set_divider(uint8_t divider);`

			`void set_is_enabled(bool is_enabled);`
			`inline bool get_is_enabled() { return _is_enabled; }`
I'm not yet completely convinced by my approach to time basing, but it'll probably do? If so then this more or less gets me ready for a point-sampled filtering. 2016-01-14 03:02:39 +00:00
Switched model for filter subclasses. Implemented test square[-ish] wave to check for obvious stream errors. None is clear. 2016-01-15 02:27:02 +00:00			`void get_samples(unsigned int number_of_samples, int16_t *target);`
			`void skip_samples(unsigned int number_of_samples);`

As shown by the commented-out code, the aliasing-adaptation seems to be working. So something is wrong somewhere else. 2016-01-15 02:59:37 +00:00			`Speaker();`
			`~Speaker();`
Resolved some errors. 2016-01-14 03:11:33 +00:00
			`private:`
Switched model for filter subclasses. Implemented test square[-ish] wave to check for obvious stream errors. None is clear. 2016-01-15 02:27:02 +00:00			`unsigned int _counter;`
Resolved some errors. 2016-01-14 03:11:33 +00:00			`uint8_t _divider;`
			`bool _is_enabled;`
Switched model for filter subclasses. Implemented test square[-ish] wave to check for obvious stream errors. None is clear. 2016-01-15 02:27:02 +00:00			`int16_t _output_level;`
Resolved some errors. 2016-01-14 03:11:33 +00:00
Edging towards audio output; the speaker is given appropriate input and output rates, and then updated with current divider and enabled/disabled status. 2016-01-14 02:03:43 +00:00			`} _speaker;`
Started working on a shell for the Electron emulation, including factoring out the common CRT delegate -> Objective-C bridging, serial dispatch queue and frameskipping logic from the Atari 2600 shell. 2016-01-05 04:12:47 +00:00			`};`

			`}`

			`#endif /* Electron_hpp */`