amuse/include/amuse/Submix.hpp

107 lines
3.7 KiB
C++

#ifndef __AMUSE_SUBMIX_HPP__
#define __AMUSE_SUBMIX_HPP__
#include <memory>
#include "SoundMacroState.hpp"
#include "IBackendSubmix.hpp"
#include "IBackendVoice.hpp"
#include "EffectBase.hpp"
#include "EffectChorus.hpp"
#include "EffectDelay.hpp"
#include "EffectReverb.hpp"
#include <unordered_set>
namespace amuse
{
class IBackendSubmix;
class Sequencer;
/** Intermediate mix of voices for applying auxiliary effects */
class Submix
{
friend class Engine;
friend class Voice;
friend class Sequencer;
Engine& m_root;
Submix* m_submix = nullptr; /**< Parent submix of this submix (or NULL if mixing to main output) */
std::unique_ptr<IBackendSubmix> m_backendSubmix; /**< Handle to client-implemented backend submix */
std::vector<std::unique_ptr<EffectBaseTypeless>> m_effectStack; /**< Ordered list of effects to apply to submix */
bool m_destroyed = false;
void _destroy();
public:
Submix(Engine& engine, Submix* smx);
~Submix()
{
#ifndef NDEBUG
/* Ensure proper destruction procedure followed */
assert(m_destroyed);
#endif
}
/** Obtain pointer to Submix's parent Submix */
Submix* getParentSubmix() {return m_submix;}
/** Add new effect to effect stack and assume ownership */
template <class T, class ...Args>
T& makeEffect(Args... args)
{
switch (m_backendSubmix->getSampleFormat())
{
case SubmixFormat::Int16:
{
using ImpType = typename T::template ImpType<int16_t>;
m_effectStack.emplace_back(new ImpType(args..., m_backendSubmix->getSampleRate()));
return static_cast<ImpType&>(*m_effectStack.back());
}
case SubmixFormat::Int32:
{
using ImpType = typename T::template ImpType<int32_t>;
m_effectStack.emplace_back(new ImpType(args..., m_backendSubmix->getSampleRate()));
return static_cast<ImpType&>(*m_effectStack.back());
}
case SubmixFormat::Float:
{
using ImpType = typename T::template ImpType<float>;
m_effectStack.emplace_back(new ImpType(args..., m_backendSubmix->getSampleRate()));
return static_cast<ImpType&>(*m_effectStack.back());
}
}
}
/** Add new chorus effect to effect stack and assume ownership */
EffectChorus& makeChorus(uint32_t baseDelay, uint32_t variation, uint32_t period);
/** Add new delay effect to effect stack and assume ownership */
EffectDelay& makeDelay(uint32_t initDelay, uint32_t initFeedback, uint32_t initOutput);
/** Add new standard-quality reverb effect to effect stack and assume ownership */
EffectReverbStd& makeReverbStd(float coloration, float mix, float time,
float damping, float preDelay);
/** Add new high-quality reverb effect to effect stack and assume ownership */
EffectReverbHi& makeReverbHi(float coloration, float mix, float time,
float damping, float preDelay, float crosstalk);
/** Remove and deallocate all effects from effect stack */
void clearEffects() {m_effectStack.clear();}
/** Returns true when an effect callback is bound */
bool canApplyEffect() const {return m_effectStack.size() != 0;}
/** in/out transformation entry for audio effect */
void applyEffect(int16_t* audio, size_t frameCount, const ChannelMap& chanMap) const;
/** in/out transformation entry for audio effect */
void applyEffect(int32_t* audio, size_t frameCount, const ChannelMap& chanMap) const;
/** in/out transformation entry for audio effect */
void applyEffect(float* audio, size_t frameCount, const ChannelMap& chanMap) const;
Engine& getEngine() {return m_root;}
};
}
#endif // __AMUSE_SUBMIX_HPP__