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260 lines
7.1 KiB
C++
260 lines
7.1 KiB
C++
//
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// EnvelopeGenerator.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 01/05/2020.
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// Copyright © 2020 Thomas Harte. All rights reserved.
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//
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#pragma once
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#include <optional>
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#include <functional>
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#include "LowFrequencyOscillator.hpp"
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namespace Yamaha::OPL {
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/*!
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Models an OPL-style envelope generator.
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Damping is optional; if damping is enabled then if there is a transition to key-on while
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attenuation is less than maximum then attenuation will be quickly transitioned to maximum
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before the attack phase can begin.
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in real hardware damping is used by the envelope generators associated with
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carriers, with phases being reset upon the transition from damping to attack.
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This code considers application of tremolo to be a function of the envelope generator;
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this is largely for logical conformity with the phase generator that necessarily has to
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apply vibrato.
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TODO: use envelope_precision.
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*/
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template <int envelope_precision, int period_precision> class EnvelopeGenerator {
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public:
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/*!
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Advances the envelope generator a single step, given the current state of the low-frequency oscillator, @c oscillator.
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*/
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void update(const LowFrequencyOscillator &oscillator) {
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// Apply tremolo, which is fairly easy.
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tremolo_ = tremolo_enable_ * oscillator.tremolo << 4;
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// Something something something...
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const int key_scaling_rate = key_scale_rate_ >> key_scale_rate_shift_;
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switch(phase_) {
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case Phase::Damp:
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update_decay(oscillator, 12 << 2);
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if(attenuation_ == 511) {
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(*will_attack_)();
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phase_ = Phase::Attack;
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}
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break;
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case Phase::Attack:
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update_attack(oscillator, attack_rate_ + key_scaling_rate);
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// Two possible terminating conditions: (i) the attack rate is 15; (ii) full volume has been reached.
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if(attenuation_ <= 0) {
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attenuation_ = 0;
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phase_ = Phase::Decay;
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}
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break;
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case Phase::Decay:
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update_decay(oscillator, decay_rate_ + key_scaling_rate);
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if(attenuation_ >= sustain_level_) {
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attenuation_ = sustain_level_;
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phase_ = use_sustain_level_ ? Phase::Sustain : Phase::Release;
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}
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break;
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case Phase::Sustain:
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// Nothing to do.
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break;
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case Phase::Release:
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update_decay(oscillator, release_rate_ + key_scaling_rate);
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break;
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}
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}
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/*!
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@returns The current attenuation from this envelope generator. This is independent of the envelope precision.
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*/
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int attenuation() const {
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// TODO: if this envelope is fully released, should tremolo still be able to vocalise it?
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return (attenuation_ << 3) + tremolo_;
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}
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/*!
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Enables or disables damping on this envelope generator. If damping is enabled then this envelope generator will
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use the damping phase when necessary (i.e. when transitioning to key on if attenuation is not already at maximum)
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and in any case will call @c will_attack before transitioning from any other state to attack.
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@param will_attack Supply a will_attack callback to enable damping mode; supply nullopt to disable damping mode.
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*/
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void set_should_damp(const std::optional<std::function<void(void)>> &will_attack) {
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will_attack_ = will_attack;
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}
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/*!
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Sets the current state of the key-on input.
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*/
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void set_key_on(const bool key_on) {
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// Do nothing if this is not a leading or trailing edge.
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if(key_on == key_on_) return;
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key_on_ = key_on;
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// Always transition to release upon a key off.
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if(!key_on_) {
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phase_ = Phase::Release;
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return;
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}
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// On key on: if this is an envelope generator with damping, and damping is required,
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// schedule that. If damping is not required, announce a pending attack now and
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// transition to attack.
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if(will_attack_) {
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if(attenuation_ != 511) {
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phase_ = Phase::Damp;
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return;
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}
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(*will_attack_)();
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}
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phase_ = Phase::Attack;
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}
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/*!
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Sets the attack rate, which should be in the range 0–15.
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*/
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void set_attack_rate(const int rate) {
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attack_rate_ = rate << 2;
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}
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/*!
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Sets the decay rate, which should be in the range 0–15.
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*/
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void set_decay_rate(const int rate) {
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decay_rate_ = rate << 2;
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}
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/*!
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Sets the release rate, which should be in the range 0–15.
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*/
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void set_release_rate(const int rate) {
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release_rate_ = rate << 2;
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}
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/*!
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Sets the sustain level, which should be in the range 0–15.
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*/
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void set_sustain_level(const int level) {
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sustain_level_ = level << 3;
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// TODO: verify the shift level here. Especially re: precision.
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}
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/*!
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Enables or disables use of the sustain level. If this is disabled, the envelope proceeds
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directly from decay to release.
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*/
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void set_use_sustain_level(const bool use) {
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use_sustain_level_ = use;
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}
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/*!
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Enables or disables key-rate scaling.
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*/
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void set_key_scaling_rate_enabled(const bool enabled) {
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key_scale_rate_shift_ = int(enabled) * 2;
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}
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/*!
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Enables or disables application of the low-frequency oscillator's tremolo.
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*/
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void set_tremolo_enabled(const bool enabled) {
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tremolo_enable_ = int(enabled);
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}
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/*!
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Sets the current period associated with the channel that owns this envelope generator;
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this is used to select a key scaling rate if key-rate scaling is enabled.
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*/
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void set_period(const int period, const int octave) {
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key_scale_rate_ = (octave << 1) | (period >> (period_precision - 1));
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}
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private:
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enum class Phase {
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Attack, Decay, Sustain, Release, Damp
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} phase_ = Phase::Release;
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int attenuation_ = 511, tremolo_ = 0;
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bool key_on_ = false;
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std::optional<std::function<void(void)>> will_attack_;
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int key_scale_rate_ = 0;
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int key_scale_rate_shift_ = 0;
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int tremolo_enable_ = 0;
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int attack_rate_ = 0;
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int decay_rate_ = 0;
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int release_rate_ = 0;
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int sustain_level_ = 0;
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bool use_sustain_level_ = false;
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static constexpr int dithering_patterns[4][8] = {
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{0, 1, 0, 1, 0, 1, 0, 1},
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{0, 1, 0, 1, 1, 1, 0, 1},
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{0, 1, 1, 1, 0, 1, 1, 1},
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{0, 1, 1, 1, 1, 1, 1, 1},
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};
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void update_attack(const LowFrequencyOscillator &oscillator, const int rate) {
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// Special case: no attack.
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if(rate < 4) {
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return;
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}
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// Special case: instant attack.
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if(rate >= 60) {
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attenuation_ = 0;
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return;
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}
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// Work out the number of cycles between each adjustment tick, and stop now
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// if not at the next adjustment boundary.
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const int shift_size = 13 - (std::min(rate, 52) >> 2);
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if(oscillator.counter & ((1 << shift_size) - 1)) {
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return;
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}
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// Apply dithered adjustment.
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const int rate_shift = (rate > 55);
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const int step = dithering_patterns[rate & 3][(oscillator.counter >> shift_size) & 7];
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attenuation_ -= ((attenuation_ >> (3 - rate_shift)) + 1) * step;
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}
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void update_decay(const LowFrequencyOscillator &oscillator, const int rate) {
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// Special case: no decay.
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if(rate < 4) {
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return;
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}
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// Work out the number of cycles between each adjustment tick, and stop now
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// if not at the next adjustment boundary.
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const int shift_size = 13 - (std::min(rate, 52) >> 2);
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if(oscillator.counter & ((1 << shift_size) - 1)) {
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return;
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}
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// Apply dithered adjustment and clamp.
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const int rate_shift = 1 + (rate > 59) + (rate > 55);
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attenuation_ += dithering_patterns[rate & 3][(oscillator.counter >> shift_size) & 7] * (4 << rate_shift);
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attenuation_ = std::min(attenuation_, 511);
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}
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};
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}
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