// // Operator.hpp // Clock Signal // // Created by Thomas Harte on 15/04/2020. // Copyright © 2020 Thomas Harte. All rights reserved. // #ifndef Operator_hpp #define Operator_hpp #include #include "Tables.h" namespace Yamaha { namespace OPL { /*! Describes the ephemeral state of an operator. */ struct OperatorState { public: /// @returns The linear output level for the operator with this state.. int level(); private: LogSin attenuation; int raw_phase_ = 0; enum class ADSRPhase { Attack, Decay, Sustain, Release } adsr_phase_ = ADSRPhase::Attack; int time_in_phase_ = 0; int adsr_attenuation_ = 511; bool last_key_on_ = false; friend class Operator; }; /*! Describes parts of an operator that are genuinely stored per-operator on the OPLL; these can be provided to the Operator in order to have it ignore its local values if the host is an OPLL or VRC7. */ struct OperatorOverrides { int attenuation = 0; bool use_sustain_level = false; }; /*! Models an operator. In Yamaha FM terms, an operator is a combination of a few things: * an oscillator, producing one of a handful of sine-derived waveforms; * an ADSR output level envelope; and * a bunch of potential adjustments to those two things: * optional tremolo and/or vibrato (the rates of which are global); * the option to skip 'sustain' in ADSR and go straight to release (since no sustain period is supplied, it otherwise runs for as long as the programmer leaves a channel enabled); * an attenuation for the output level; and * a factor by which to speed up the ADSR envelope as a function of frequency. Oscillator period isn't set directly, it's a multiple of the owning channel, in which period is set as a combination of f-num and octave. */ class Operator { public: /// Sets this operator's attack rate as the top nibble of @c value, its decay rate as the bottom nibble. void set_attack_decay(uint8_t value); /// Sets this operator's sustain level as the top nibble of @c value, its release rate as the bottom nibble. void set_sustain_release(uint8_t value); /// Sets this operator's key scale level as the top two bits of @c value, its total output level as the low six bits. void set_scaling_output(uint8_t value); /// Sets this operator's waveform using the low two bits of @c value. void set_waveform(uint8_t value); /// From the top nibble of @c value sets the AM, vibrato, hold/sustain level and keyboard sampling rate flags; /// uses the bottom nibble to set the period multiplier. void set_am_vibrato_hold_sustain_ksr_multiple(uint8_t value); /// Provides one clock tick to the operator, along with the relevant parameters of its channel. void update(OperatorState &state, bool key_on, int channel_period, int channel_octave, int phase_offset, OperatorOverrides *overrides = nullptr); /// @returns @c true if this channel currently has a non-zero output; @c false otherwise. bool is_audible(OperatorState &state, OperatorOverrides *overrides = nullptr); private: /// If true then an amplitude modulation of "3.7Hz" is applied, /// with a depth "determined by the AM-DEPTH of the BD register"? bool apply_amplitude_modulation_ = false; /// If true then a vibrato of '6.4 Hz' is applied, with a depth /// "determined by VOB_DEPTH of the BD register"? bool apply_vibrato_ = false; /// Selects between an ADSR envelope that holds at the sustain level /// for as long as this key is on, releasing afterwards, and one that /// simply switches straight to the release rate once the sustain /// level is hit, getting back to 0 regardless of an ongoing key-on. bool use_sustain_level_ = false; /// Indexes a lookup table to determine what multiple of the channel's frequency /// this operator is advancing at. int frequency_multiple_ = 0; /// Sets the current output level of this modulator, as an attenuation. int attenuation_ = 0; /// Provides a potential faster step through the ADSR envelope. Cf. p12. bool key_scaling_rate_ = false; /// Selects attenuation that is applied as a function of interval. Cf. p14. int level_key_scaling_ = 0; /// Sets the ADSR rates. These all provide the top four bits of a six-bit number; /// the bottom two bits... are 'RL'? int attack_rate_ = 0; int decay_rate_ = 0; int sustain_level_ = 0; int release_rate_ = 0; /// Selects the generated waveform. enum class Waveform { Sine, HalfSine, AbsSine, PulseSine } waveform_ = Waveform::Sine; }; } } #endif /* Operator_hpp */