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CLK/Components/OPx/Implementation/LowFrequencyOscillator.hpp
2024-01-16 23:34:46 -05:00

64 lines
1.9 KiB
C++

//
// LowFrequencyOscillator.hpp
// Clock Signal
//
// Created by Thomas Harte on 23/04/2020.
// Copyright © 2020 Thomas Harte. All rights reserved.
//
#pragma once
#include "../../../Numeric/LFSR.hpp"
namespace Yamaha::OPL {
/*!
Models the output of the OPL low-frequency oscillator, which provides a couple of optional fixed-frequency
modifications to an operator: tremolo and vibrato. Also exposes a global time counter, which oscillators use
as part of their ADSR envelope.
*/
class LowFrequencyOscillator {
public:
/// Current attenuation due to tremolo / amplitude modulation, between 0 and 26.
int tremolo = 0;
/// A number between 0 and 7 indicating the current vibrato offset; this should be combined by operators
/// with their frequency number to get the actual vibrato.
int vibrato = 0;
/// A counter of the number of operator update cycles (i.e. input clock / 72) since an arbitrary time.
int counter = 0;
/// Describes the current output of the LFSR; will be either 0 or 1.
int lfsr = 0;
/// Updates the oscillator outputs. Should be called at the (input clock/72) rate.
void update() {
++counter;
// This produces output of:
//
// four instances of 0, four instances of 1... _three_ instances of 26,
// four instances of 25, four instances of 24... _three_ instances of 0.
//
// ... advancing once every 64th update.
const int tremolo_index = (counter >> 6) % 210;
const int tremolo_levels[2] = {tremolo_index >> 2, 52 - ((tremolo_index+1) >> 2)};
tremolo = tremolo_levels[tremolo_index / 107];
// Vibrato is relatively simple: it's just three bits from the counter.
vibrato = (counter >> 10) & 7;
}
/// Updartes the LFSR output. Should be called at the input clock rate.
void update_lfsr() {
lfsr = noise_source_.next();
}
private:
// This is the correct LSFR per forums.submarine.org.uk.
Numeric::LFSR<int, 0x800302> noise_source_;
};
}