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CLK/Components/OPx/OPLL.hpp
2023-05-10 16:02:18 -05:00

130 lines
3.5 KiB
C++

//
// OPLL.hpp
// Clock Signal
//
// Created by Thomas Harte on 03/05/2020.
// Copyright © 2020 Thomas Harte. All rights reserved.
//
#ifndef OPLL_hpp
#define OPLL_hpp
#include "Implementation/OPLBase.hpp"
#include "Implementation/EnvelopeGenerator.hpp"
#include "Implementation/KeyLevelScaler.hpp"
#include "Implementation/PhaseGenerator.hpp"
#include "Implementation/LowFrequencyOscillator.hpp"
#include "Implementation/WaveformGenerator.hpp"
#include <atomic>
namespace Yamaha::OPL {
class OPLL: public OPLBase<OPLL> {
public:
/// Creates a new OPLL or VRC7.
OPLL(Concurrency::AsyncTaskQueue<false> &task_queue, int audio_divider = 1, bool is_vrc7 = false);
/// As per ::SampleSource; provides audio output.
void get_samples(std::size_t number_of_samples, std::int16_t *target);
void set_sample_volume_range(std::int16_t range);
// The OPLL is generally 'half' as loud as it's told to be. This won't strictly be true in
// rhythm mode, but it's correct for melodic output.
double get_average_output_peak() const { return 0.5; }
/// Reads from the OPL.
uint8_t read(uint16_t address);
private:
friend OPLBase<OPLL>;
void write_register(uint8_t address, uint8_t value);
int audio_divider_ = 0;
int audio_offset_ = 0;
std::atomic<int> total_volume_;
int16_t output_levels_[18];
void update_all_channels();
int melodic_output(int channel);
int bass_drum();
int tom_tom();
int snare_drum();
int cymbal();
int high_hat();
static constexpr int period_precision = 9;
static constexpr int envelope_precision = 7;
// Standard melodic phase and envelope generators;
//
// These are assigned as:
//
// [x], 0 <= x < 9 = carrier for channel x;
// [x+9] = modulator for channel x.
//
PhaseGenerator<period_precision> phase_generators_[18];
EnvelopeGenerator<envelope_precision, period_precision> envelope_generators_[18];
KeyLevelScaler<period_precision> key_level_scalers_[18];
// Dedicated rhythm envelope generators and attenuations.
EnvelopeGenerator<envelope_precision, period_precision> rhythm_envelope_generators_[6];
enum RhythmIndices {
HighHat = 0,
Cymbal = 1,
TomTom = 2,
Snare = 3,
BassCarrier = 4,
BassModulator = 5
};
// Channel specifications.
struct Channel {
int octave = 0;
int period = 0;
int instrument = 0;
int attenuation = 0;
int modulator_attenuation = 0;
Waveform carrier_waveform = Waveform::Sine;
Waveform modulator_waveform = Waveform::Sine;
int carrier_key_rate_scale_multiplier = 0;
int modulator_key_rate_scale_multiplier = 0;
LogSign modulator_output;
int modulator_feedback = 0;
bool use_sustain = false;
} channels_[9];
// The low-frequency oscillator.
LowFrequencyOscillator oscillator_;
bool rhythm_mode_enabled_ = false;
bool is_vrc7_ = false;
// Contains the current configuration of the custom instrument.
uint8_t custom_instrument_[8] = {0, 0, 0, 0, 0, 0, 0, 0};
// Helpers to push per-channel information.
/// Pushes the current octave and period to channel @c channel.
void set_channel_period(int channel);
/// Installs the appropriate instrument on channel @c channel.
void install_instrument(int channel);
/// Sets whether the sustain level is used for channel @c channel based on its current instrument
/// and the user's selection.
void set_use_sustain(int channel);
/// @returns The 8-byte definition of instrument @c instrument.
const uint8_t *instrument_definition(int instrument, int channel);
};
}
#endif /* OPLL_hpp */