osb/source/base/StarMixer.hpp

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#ifndef STAR_MIXER_HPP
#define STAR_MIXER_HPP
#include "StarAudio.hpp"
#include "StarThread.hpp"
#include "StarList.hpp"
#include "StarMap.hpp"
#include "StarSet.hpp"
#include "StarVector.hpp"
#include "StarMaybe.hpp"
namespace Star {
STAR_CLASS(AudioInstance);
STAR_CLASS(Mixer);
struct RampedValue {
float value;
float target;
float velocity;
};
enum class MixerGroup : uint8_t {
Effects,
Music,
Cinematic,
Instruments
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};
class AudioInstance {
public:
AudioInstance(Audio const& audio);
Maybe<Vec2F> position() const;
void setPosition(Maybe<Vec2F> position);
// If the audio has no position, sets the position to zero before translating
void translate(Vec2F const& distance);
float rangeMultiplier() const;
void setRangeMultiplier(float rangeMultiplier);
void setVolume(float targetValue, float rampTime = 0.0f);
void setPitchMultiplier(float targetValue, float rampTime = 0.0f);
// Returns the currently remaining loops
int loops() const;
// Sets the remaining loops, set to 0 to stop looping
void setLoops(int loops);
// Returns the current audio playing time position
double currentTime() const;
// Total length of time of the audio in seconds
double totalTime() const;
// Seeks the audio to the current time in seconds
void seekTime(double time);
// The MixerGroup defaults to Effects
MixerGroup mixerGroup() const;
void setMixerGroup(MixerGroup mixerGroup);
// If set, uses wall clock time in milliseconds to set precise start and stop
// times for the AudioInstance
void setClockStart(Maybe<int64_t> clockStartTime);
void setClockStop(Maybe<int64_t> clockStopTime, int64_t fadeOutTime = 0);
void stop(float rampTime = 0.0f);
bool finished() const;
private:
friend class Mixer;
mutable Mutex m_mutex;
Audio m_audio;
MixerGroup m_mixerGroup;
RampedValue m_volume;
float m_pitchMultiplier;
float m_pitchMultiplierTarget;
float m_pitchMultiplierVelocity;
int m_loops;
bool m_stopping;
bool m_finished;
Maybe<Vec2F> m_position;
float m_rangeMultiplier;
Maybe<int64_t> m_clockStart;
Maybe<int64_t> m_clockStop;
int64_t m_clockStopFadeOut;
};
// Thread safe mixer class with basic effects support.
class Mixer {
public:
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typedef function<void(int16_t* buffer, size_t frames, unsigned channels)> ExtraMixFunction;
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typedef function<void(int16_t* buffer, size_t frames, unsigned channels)> EffectFunction;
typedef function<float(unsigned, Vec2F, float)> PositionalAttenuationFunction;
Mixer(unsigned sampleRate, unsigned channels);
unsigned sampleRate() const;
unsigned channels() const;
// Construct a really crappy low-pass filter based on averaging
EffectFunction lowpass(size_t avgSize) const;
// Construct a very simple echo filter.
EffectFunction echo(float time, float dry, float wet) const;
// Adds / removes effects that affect all playback.
void addEffect(String const& effectName, EffectFunction effectFunction, float rampTime);
void removeEffect(String const& effectName, float rampTime);
StringList currentEffects();
bool hasEffect(String const& effectName);
// Global speed
void setSpeed(float speed);
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// Global volume
void setVolume(float volume, float rampTime);
// per mixer group volume
void setGroupVolume(MixerGroup group, float targetValue, float rampTime = 0.0f);
void play(AudioInstancePtr sample);
void stopAll(float rampTime);
// Reads pending audio data. This is thread safe with the other Mixer
// methods, but only one call to read may be active at a time.
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void read(int16_t* samples, size_t frameCount, ExtraMixFunction extraMixFunction = {});
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// Call within the main loop of the program using Mixer, calculates
// positional attenuation of audio and does cleanup.
void update(float dt, PositionalAttenuationFunction positionalAttenuationFunction = {});
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private:
struct EffectInfo {
EffectFunction effectFunction;
float amount;
float velocity;
bool finished;
};
struct AudioState {
List<float> positionalChannelVolumes;
};
Mutex m_mutex;
unsigned m_sampleRate;
unsigned m_channels;
RampedValue m_volume;
Mutex m_queueMutex;
HashMap<AudioInstancePtr, AudioState> m_audios;
Mutex m_effectsMutex;
StringMap<shared_ptr<EffectInfo>> m_effects;
List<int16_t> m_mixBuffer;
Map<MixerGroup, RampedValue> m_groupVolumes;
atomic<float> m_speed;
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};
}
#endif