CLK/Components/9918/Implementation/ClockConverter.hpp

//
//  ClockConverter.hpp
//  Clock Signal
//
//  Created by Thomas Harte on 01/01/2023.
//  Copyright © 2023 Thomas Harte. All rights reserved.
//

#ifndef ClockConverter_hpp
#define ClockConverter_hpp

#include "../9918.hpp"
#include "PersonalityTraits.hpp"

namespace TI {
namespace TMS {

// Timing constants.
template <Personality, typename Enable = void> struct Timing {};

template <Personality personality>
struct Timing<personality, std::enable_if_t<is_yamaha_vdp(personality)>> {
	constexpr static int CyclesPerLine = 1368;
};

template <Personality personality>
struct Timing<personality, std::enable_if_t<is_classic_vdp(personality)>> {
	constexpr static int CyclesPerLine = 342;
};

template <>
struct Timing<Personality::MDVDP> {
	constexpr static int CyclesPerLine = 3420;
};

constexpr int TMSAccessWindowsPerLine = 171;

/*!
	This implementation of the TMS, etc mediates between three clocks:

	1)	the external clock, which is whatever the rest of the system(s)
		it plugs into run at;

	2)	the internal clock, which is used to time and place syncs, borders,
		pixel regions, etc; and

	3)	a memory acccess clock, which correlates to the number of windows
		available for memory accesses.

	E.g. for both a regular TMS9918 and the Sega Master System, the external
	clock is 3.58Mhz, the internal clock is 5.37Mhz and the memory access
	clock is 2.69Mhz.

	Or, put another way, for both a TMS9918 and Master System:

	* 228 external cycles;
	* is 342 internal cycles;
	* which exactly covers 228 NTSC colour clocks; and
	* contains 171 memory access windows.

	Both the Yamaha extensions and the Mega Drive VDP are a bit smarter about
	paged mode memory accesses, obviating any advantage to treating (3) as a
	separate clock.
*/
template <Personality personality> class ClockConverter {
	public:
		/*!
			Given that another @c source external **half-cycles** has occurred,
			indicates how many complete internal **cycles** have additionally elapsed
			since the last call to @c to_internal.

			E.g. for the TMS, @c source will count 456 ticks per line, and the internal clock
			runs at 342 ticks per line, so the proper conversion is to multiply by 3/4.
		*/
		int to_internal(int source) {
			switch(personality) {
				// Default behaviour is to apply a multiplication by 3/4;
				// this is correct for the TMS and Sega VDPs other than the Mega Drive.
				default: {
					const int result = source * 3 + cycles_error_;
					cycles_error_ = result & 3;
					return result >> 2;
				}

				// The two Yamaha chips have an internal clock that is four times
				// as fast as the TMS, therefore a stateless translation is possible.
				case Personality::V9938:
				case Personality::V9958:
				return source * 3;

				// The Mega Drive runs at 3420 master clocks per line, which is then
				// divided by 4 or 5 depending on other state. That's 7 times the
				// rate provided to the CPU; given that the input is in half-cycles
				// the proper multiplier is therefore 3.5.
				case Personality::MDVDP: {
					const int result = source * 7 + cycles_error_;
					cycles_error_ = result & 1;
					return result >> 1;
				}
			}
		}

		/*!
			Provides the number of complete external cycles that lie between now and
			@c internal_cycles into the future. Any trailing fractional external cycle
			is discarded.
		*/
		HalfCycles half_cycles_before_internal_cycles(int internal_cycles) const {
			// Logic here correlates with multipliers as per @c to_internal.
			switch(personality) {
				default:
					return HalfCycles(
						((internal_cycles << 2) + (2 - cycles_error_)) / 3
					);

				case Personality::V9938:
				case Personality::V9958:
					return HalfCycles(internal_cycles / 3);

				case Personality::MDVDP:
					return HalfCycles(
						((internal_cycles << 1) + (1 - cycles_error_)) / 7
					);
			}
		}

		/*!
			Converts a position in internal cycles to its corresponding position
			on the TMS memory-access clock, i.e. scales down to 171 clocks
			per line
		*/
		static constexpr int to_tms_access_clock(int source) {
			switch(personality) {
				default:
				return source >> 1;

				case Personality::V9938:
				case Personality::V9958:
				return source >> 3;

				case Personality::MDVDP:
				return source / 20;
			}
		}

	private:
		// Holds current residue in conversion from the external to
		// internal clock.
		int cycles_error_ = 0;
};

}
}

#endif /* ClockConverter_hpp */
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`//`
			`// ClockConverter.hpp`
			`// Clock Signal`
			`//`
			`// Created by Thomas Harte on 01/01/2023.`
			`// Copyright © 2023 Thomas Harte. All rights reserved.`
			`//`

			`#ifndef ClockConverter_hpp`
			`#define ClockConverter_hpp`

			`#include "../9918.hpp"`
Create a common home for timing information. 2023-01-07 03:39:46 +00:00			`#include "PersonalityTraits.hpp"`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00
			`namespace TI {`
			`namespace TMS {`

Create a common home for timing information. 2023-01-07 03:39:46 +00:00			`// Timing constants.`
			`template <Personality, typename Enable = void> struct Timing {};`

			`template <Personality personality>`
			`struct Timing<personality, std::enable_if_t<is_yamaha_vdp(personality)>> {`
			`constexpr static int CyclesPerLine = 1368;`
			`};`

			`template <Personality personality>`
			`struct Timing<personality, std::enable_if_t<is_classic_vdp(personality)>> {`
			`constexpr static int CyclesPerLine = 342;`
			`};`

			`template <>`
			`struct Timing<Personality::MDVDP> {`
			`constexpr static int CyclesPerLine = 3420;`
			`};`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00
			`constexpr int TMSAccessWindowsPerLine = 171;`

Explain the purpose here. 2023-01-02 02:20:30 +00:00			`/*!`
			`This implementation of the TMS, etc mediates between three clocks:`

			`1) the external clock, which is whatever the rest of the system(s)`
			`it plugs into run at;`

			`2) the internal clock, which is used to time and place syncs, borders,`
			`pixel regions, etc; and`

			`3) a memory acccess clock, which correlates to the number of windows`
			`available for memory accesses.`

			`E.g. for both a regular TMS9918 and the Sega Master System, the external`
			`clock is 3.58Mhz, the internal clock is 5.37Mhz and the memory access`
			`clock is 2.69Mhz.`

Add further exposition. 2023-01-02 03:17:21 +00:00			`Or, put another way, for both a TMS9918 and Master System:`

			`* 228 external cycles;`
			`* is 342 internal cycles;`
			`* which exactly covers 228 NTSC colour clocks; and`
			`* contains 171 memory access windows.`

Explain the purpose here. 2023-01-02 02:20:30 +00:00			`Both the Yamaha extensions and the Mega Drive VDP are a bit smarter about`
			`paged mode memory accesses, obviating any advantage to treating (3) as a`
			`separate clock.`
			`*/`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`template <Personality personality> class ClockConverter {`
			`public:`
			`/*!`
Better explain cumulative nature of @c to_internal. 2023-01-02 03:18:39 +00:00			`Given that another @c source external half-cycles has occurred,`
			`indicates how many complete internal cycles have additionally elapsed`
			`since the last call to @c to_internal.`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00
			`E.g. for the TMS, @c source will count 456 ticks per line, and the internal clock`
			`runs at 342 ticks per line, so the proper conversion is to multiply by 3/4.`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`*/`
			`int to_internal(int source) {`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00			`switch(personality) {`
			`// Default behaviour is to apply a multiplication by 3/4;`
			`// this is correct for the TMS and Sega VDPs other than the Mega Drive.`
			`default: {`
			`const int result = source * 3 + cycles_error_;`
			`cycles_error_ = result & 3;`
			`return result >> 2;`
			`}`

			`// The two Yamaha chips have an internal clock that is four times`
			`// as fast as the TMS, therefore a stateless translation is possible.`
			`case Personality::V9938:`
			`case Personality::V9958:`
			`return source * 3;`

			`// The Mega Drive runs at 3420 master clocks per line, which is then`
			`// divided by 4 or 5 depending on other state. That's 7 times the`
			`// rate provided to the CPU; given that the input is in half-cycles`
			`// the proper multiplier is therefore 3.5.`
			`case Personality::MDVDP: {`
			`const int result = source * 7 + cycles_error_;`
			`cycles_error_ = result & 1;`
			`return result >> 1;`
			`}`
			`}`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`}`

			`/*!`
Explain the purpose here. 2023-01-02 02:20:30 +00:00			`Provides the number of complete external cycles that lie between now and`
			`@c internal_cycles into the future. Any trailing fractional external cycle`
			`is discarded.`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`*/`
			`HalfCycles half_cycles_before_internal_cycles(int internal_cycles) const {`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00			`// Logic here correlates with multipliers as per @c to_internal.`
			`switch(personality) {`
			`default:`
			`return HalfCycles(`
			`((internal_cycles << 2) + (2 - cycles_error_)) / 3`
			`);`

			`case Personality::V9938:`
			`case Personality::V9958:`
			`return HalfCycles(internal_cycles / 3);`

			`case Personality::MDVDP:`
			`return HalfCycles(`
			`((internal_cycles << 1) + (1 - cycles_error_)) / 7`
			`);`
			`}`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`}`

Explain the purpose here. 2023-01-02 02:20:30 +00:00			`/*!`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`Converts a position in internal cycles to its corresponding position`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00			`on the TMS memory-access clock, i.e. scales down to 171 clocks`
			`per line`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`*/`
Update ClockConverter for potential alternative clocks. 2023-01-02 19:59:36 +00:00			`static constexpr int to_tms_access_clock(int source) {`
			`switch(personality) {`
			`default:`
			`return source >> 1;`

			`case Personality::V9938:`
			`case Personality::V9958:`
			`return source >> 3;`

			`case Personality::MDVDP:`
			`return source / 20;`
			`}`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`}`

			`private:`
Explain the purpose here. 2023-01-02 02:20:30 +00:00			`// Holds current residue in conversion from the external to`
			`// internal clock.`
Incompletely transitions towards more flexible clock ratios. 2023-01-01 19:20:45 +00:00			`int cycles_error_ = 0;`
			`};`

			`}`
			`}`

			`#endif /* ClockConverter_hpp */`