#include "config.h" #include #include "AL/al.h" #include "AL/efx.h" #include "alc/effects/base.h" #include "aloptional.h" #include "core/logging.h" #include "effects.h" #ifdef ALSOFT_EAX #include #include "alnumeric.h" #include "al/eax/exception.h" #include "al/eax/utils.h" #endif // ALSOFT_EAX namespace { static_assert(ChorusMaxDelay >= AL_CHORUS_MAX_DELAY, "Chorus max delay too small"); static_assert(FlangerMaxDelay >= AL_FLANGER_MAX_DELAY, "Flanger max delay too small"); static_assert(AL_CHORUS_WAVEFORM_SINUSOID == AL_FLANGER_WAVEFORM_SINUSOID, "Chorus/Flanger waveform value mismatch"); static_assert(AL_CHORUS_WAVEFORM_TRIANGLE == AL_FLANGER_WAVEFORM_TRIANGLE, "Chorus/Flanger waveform value mismatch"); inline al::optional WaveformFromEnum(ALenum type) { switch(type) { case AL_CHORUS_WAVEFORM_SINUSOID: return ChorusWaveform::Sinusoid; case AL_CHORUS_WAVEFORM_TRIANGLE: return ChorusWaveform::Triangle; } return al::nullopt; } inline ALenum EnumFromWaveform(ChorusWaveform type) { switch(type) { case ChorusWaveform::Sinusoid: return AL_CHORUS_WAVEFORM_SINUSOID; case ChorusWaveform::Triangle: return AL_CHORUS_WAVEFORM_TRIANGLE; } throw std::runtime_error{"Invalid chorus waveform: "+std::to_string(static_cast(type))}; } void Chorus_setParami(EffectProps *props, ALenum param, int val) { switch(param) { case AL_CHORUS_WAVEFORM: if(auto formopt = WaveformFromEnum(val)) props->Chorus.Waveform = *formopt; else throw effect_exception{AL_INVALID_VALUE, "Invalid chorus waveform: 0x%04x", val}; break; case AL_CHORUS_PHASE: if(!(val >= AL_CHORUS_MIN_PHASE && val <= AL_CHORUS_MAX_PHASE)) throw effect_exception{AL_INVALID_VALUE, "Chorus phase out of range: %d", val}; props->Chorus.Phase = val; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid chorus integer property 0x%04x", param}; } } void Chorus_setParamiv(EffectProps *props, ALenum param, const int *vals) { Chorus_setParami(props, param, vals[0]); } void Chorus_setParamf(EffectProps *props, ALenum param, float val) { switch(param) { case AL_CHORUS_RATE: if(!(val >= AL_CHORUS_MIN_RATE && val <= AL_CHORUS_MAX_RATE)) throw effect_exception{AL_INVALID_VALUE, "Chorus rate out of range: %f", val}; props->Chorus.Rate = val; break; case AL_CHORUS_DEPTH: if(!(val >= AL_CHORUS_MIN_DEPTH && val <= AL_CHORUS_MAX_DEPTH)) throw effect_exception{AL_INVALID_VALUE, "Chorus depth out of range: %f", val}; props->Chorus.Depth = val; break; case AL_CHORUS_FEEDBACK: if(!(val >= AL_CHORUS_MIN_FEEDBACK && val <= AL_CHORUS_MAX_FEEDBACK)) throw effect_exception{AL_INVALID_VALUE, "Chorus feedback out of range: %f", val}; props->Chorus.Feedback = val; break; case AL_CHORUS_DELAY: if(!(val >= AL_CHORUS_MIN_DELAY && val <= AL_CHORUS_MAX_DELAY)) throw effect_exception{AL_INVALID_VALUE, "Chorus delay out of range: %f", val}; props->Chorus.Delay = val; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid chorus float property 0x%04x", param}; } } void Chorus_setParamfv(EffectProps *props, ALenum param, const float *vals) { Chorus_setParamf(props, param, vals[0]); } void Chorus_getParami(const EffectProps *props, ALenum param, int *val) { switch(param) { case AL_CHORUS_WAVEFORM: *val = EnumFromWaveform(props->Chorus.Waveform); break; case AL_CHORUS_PHASE: *val = props->Chorus.Phase; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid chorus integer property 0x%04x", param}; } } void Chorus_getParamiv(const EffectProps *props, ALenum param, int *vals) { Chorus_getParami(props, param, vals); } void Chorus_getParamf(const EffectProps *props, ALenum param, float *val) { switch(param) { case AL_CHORUS_RATE: *val = props->Chorus.Rate; break; case AL_CHORUS_DEPTH: *val = props->Chorus.Depth; break; case AL_CHORUS_FEEDBACK: *val = props->Chorus.Feedback; break; case AL_CHORUS_DELAY: *val = props->Chorus.Delay; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid chorus float property 0x%04x", param}; } } void Chorus_getParamfv(const EffectProps *props, ALenum param, float *vals) { Chorus_getParamf(props, param, vals); } EffectProps genDefaultChorusProps() noexcept { EffectProps props{}; props.Chorus.Waveform = *WaveformFromEnum(AL_CHORUS_DEFAULT_WAVEFORM); props.Chorus.Phase = AL_CHORUS_DEFAULT_PHASE; props.Chorus.Rate = AL_CHORUS_DEFAULT_RATE; props.Chorus.Depth = AL_CHORUS_DEFAULT_DEPTH; props.Chorus.Feedback = AL_CHORUS_DEFAULT_FEEDBACK; props.Chorus.Delay = AL_CHORUS_DEFAULT_DELAY; return props; } void Flanger_setParami(EffectProps *props, ALenum param, int val) { switch(param) { case AL_FLANGER_WAVEFORM: if(auto formopt = WaveformFromEnum(val)) props->Chorus.Waveform = *formopt; else throw effect_exception{AL_INVALID_VALUE, "Invalid flanger waveform: 0x%04x", val}; break; case AL_FLANGER_PHASE: if(!(val >= AL_FLANGER_MIN_PHASE && val <= AL_FLANGER_MAX_PHASE)) throw effect_exception{AL_INVALID_VALUE, "Flanger phase out of range: %d", val}; props->Chorus.Phase = val; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid flanger integer property 0x%04x", param}; } } void Flanger_setParamiv(EffectProps *props, ALenum param, const int *vals) { Flanger_setParami(props, param, vals[0]); } void Flanger_setParamf(EffectProps *props, ALenum param, float val) { switch(param) { case AL_FLANGER_RATE: if(!(val >= AL_FLANGER_MIN_RATE && val <= AL_FLANGER_MAX_RATE)) throw effect_exception{AL_INVALID_VALUE, "Flanger rate out of range: %f", val}; props->Chorus.Rate = val; break; case AL_FLANGER_DEPTH: if(!(val >= AL_FLANGER_MIN_DEPTH && val <= AL_FLANGER_MAX_DEPTH)) throw effect_exception{AL_INVALID_VALUE, "Flanger depth out of range: %f", val}; props->Chorus.Depth = val; break; case AL_FLANGER_FEEDBACK: if(!(val >= AL_FLANGER_MIN_FEEDBACK && val <= AL_FLANGER_MAX_FEEDBACK)) throw effect_exception{AL_INVALID_VALUE, "Flanger feedback out of range: %f", val}; props->Chorus.Feedback = val; break; case AL_FLANGER_DELAY: if(!(val >= AL_FLANGER_MIN_DELAY && val <= AL_FLANGER_MAX_DELAY)) throw effect_exception{AL_INVALID_VALUE, "Flanger delay out of range: %f", val}; props->Chorus.Delay = val; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid flanger float property 0x%04x", param}; } } void Flanger_setParamfv(EffectProps *props, ALenum param, const float *vals) { Flanger_setParamf(props, param, vals[0]); } void Flanger_getParami(const EffectProps *props, ALenum param, int *val) { switch(param) { case AL_FLANGER_WAVEFORM: *val = EnumFromWaveform(props->Chorus.Waveform); break; case AL_FLANGER_PHASE: *val = props->Chorus.Phase; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid flanger integer property 0x%04x", param}; } } void Flanger_getParamiv(const EffectProps *props, ALenum param, int *vals) { Flanger_getParami(props, param, vals); } void Flanger_getParamf(const EffectProps *props, ALenum param, float *val) { switch(param) { case AL_FLANGER_RATE: *val = props->Chorus.Rate; break; case AL_FLANGER_DEPTH: *val = props->Chorus.Depth; break; case AL_FLANGER_FEEDBACK: *val = props->Chorus.Feedback; break; case AL_FLANGER_DELAY: *val = props->Chorus.Delay; break; default: throw effect_exception{AL_INVALID_ENUM, "Invalid flanger float property 0x%04x", param}; } } void Flanger_getParamfv(const EffectProps *props, ALenum param, float *vals) { Flanger_getParamf(props, param, vals); } EffectProps genDefaultFlangerProps() noexcept { EffectProps props{}; props.Chorus.Waveform = *WaveformFromEnum(AL_FLANGER_DEFAULT_WAVEFORM); props.Chorus.Phase = AL_FLANGER_DEFAULT_PHASE; props.Chorus.Rate = AL_FLANGER_DEFAULT_RATE; props.Chorus.Depth = AL_FLANGER_DEFAULT_DEPTH; props.Chorus.Feedback = AL_FLANGER_DEFAULT_FEEDBACK; props.Chorus.Delay = AL_FLANGER_DEFAULT_DELAY; return props; } } // namespace DEFINE_ALEFFECT_VTABLE(Chorus); const EffectProps ChorusEffectProps{genDefaultChorusProps()}; DEFINE_ALEFFECT_VTABLE(Flanger); const EffectProps FlangerEffectProps{genDefaultFlangerProps()}; #ifdef ALSOFT_EAX namespace { struct EaxChorusTraits { using Props = EAXCHORUSPROPERTIES; using Committer = EaxChorusCommitter; static constexpr auto Field = &EaxEffectProps::mChorus; static constexpr auto eax_effect_type() { return EaxEffectType::Chorus; } static constexpr auto efx_effect() { return AL_EFFECT_CHORUS; } static constexpr auto eax_none_param_id() { return EAXCHORUS_NONE; } static constexpr auto eax_allparameters_param_id() { return EAXCHORUS_ALLPARAMETERS; } static constexpr auto eax_waveform_param_id() { return EAXCHORUS_WAVEFORM; } static constexpr auto eax_phase_param_id() { return EAXCHORUS_PHASE; } static constexpr auto eax_rate_param_id() { return EAXCHORUS_RATE; } static constexpr auto eax_depth_param_id() { return EAXCHORUS_DEPTH; } static constexpr auto eax_feedback_param_id() { return EAXCHORUS_FEEDBACK; } static constexpr auto eax_delay_param_id() { return EAXCHORUS_DELAY; } static constexpr auto eax_min_waveform() { return EAXCHORUS_MINWAVEFORM; } static constexpr auto eax_min_phase() { return EAXCHORUS_MINPHASE; } static constexpr auto eax_min_rate() { return EAXCHORUS_MINRATE; } static constexpr auto eax_min_depth() { return EAXCHORUS_MINDEPTH; } static constexpr auto eax_min_feedback() { return EAXCHORUS_MINFEEDBACK; } static constexpr auto eax_min_delay() { return EAXCHORUS_MINDELAY; } static constexpr auto eax_max_waveform() { return EAXCHORUS_MAXWAVEFORM; } static constexpr auto eax_max_phase() { return EAXCHORUS_MAXPHASE; } static constexpr auto eax_max_rate() { return EAXCHORUS_MAXRATE; } static constexpr auto eax_max_depth() { return EAXCHORUS_MAXDEPTH; } static constexpr auto eax_max_feedback() { return EAXCHORUS_MAXFEEDBACK; } static constexpr auto eax_max_delay() { return EAXCHORUS_MAXDELAY; } static constexpr auto eax_default_waveform() { return EAXCHORUS_DEFAULTWAVEFORM; } static constexpr auto eax_default_phase() { return EAXCHORUS_DEFAULTPHASE; } static constexpr auto eax_default_rate() { return EAXCHORUS_DEFAULTRATE; } static constexpr auto eax_default_depth() { return EAXCHORUS_DEFAULTDEPTH; } static constexpr auto eax_default_feedback() { return EAXCHORUS_DEFAULTFEEDBACK; } static constexpr auto eax_default_delay() { return EAXCHORUS_DEFAULTDELAY; } static constexpr auto efx_min_waveform() { return AL_CHORUS_MIN_WAVEFORM; } static constexpr auto efx_min_phase() { return AL_CHORUS_MIN_PHASE; } static constexpr auto efx_min_rate() { return AL_CHORUS_MIN_RATE; } static constexpr auto efx_min_depth() { return AL_CHORUS_MIN_DEPTH; } static constexpr auto efx_min_feedback() { return AL_CHORUS_MIN_FEEDBACK; } static constexpr auto efx_min_delay() { return AL_CHORUS_MIN_DELAY; } static constexpr auto efx_max_waveform() { return AL_CHORUS_MAX_WAVEFORM; } static constexpr auto efx_max_phase() { return AL_CHORUS_MAX_PHASE; } static constexpr auto efx_max_rate() { return AL_CHORUS_MAX_RATE; } static constexpr auto efx_max_depth() { return AL_CHORUS_MAX_DEPTH; } static constexpr auto efx_max_feedback() { return AL_CHORUS_MAX_FEEDBACK; } static constexpr auto efx_max_delay() { return AL_CHORUS_MAX_DELAY; } static constexpr auto efx_default_waveform() { return AL_CHORUS_DEFAULT_WAVEFORM; } static constexpr auto efx_default_phase() { return AL_CHORUS_DEFAULT_PHASE; } static constexpr auto efx_default_rate() { return AL_CHORUS_DEFAULT_RATE; } static constexpr auto efx_default_depth() { return AL_CHORUS_DEFAULT_DEPTH; } static constexpr auto efx_default_feedback() { return AL_CHORUS_DEFAULT_FEEDBACK; } static constexpr auto efx_default_delay() { return AL_CHORUS_DEFAULT_DELAY; } static ChorusWaveform eax_waveform(unsigned long type) { if(type == EAX_CHORUS_SINUSOID) return ChorusWaveform::Sinusoid; if(type == EAX_CHORUS_TRIANGLE) return ChorusWaveform::Triangle; return ChorusWaveform::Sinusoid; } }; // EaxChorusTraits struct EaxFlangerTraits { using Props = EAXFLANGERPROPERTIES; using Committer = EaxFlangerCommitter; static constexpr auto Field = &EaxEffectProps::mFlanger; static constexpr auto eax_effect_type() { return EaxEffectType::Flanger; } static constexpr auto efx_effect() { return AL_EFFECT_FLANGER; } static constexpr auto eax_none_param_id() { return EAXFLANGER_NONE; } static constexpr auto eax_allparameters_param_id() { return EAXFLANGER_ALLPARAMETERS; } static constexpr auto eax_waveform_param_id() { return EAXFLANGER_WAVEFORM; } static constexpr auto eax_phase_param_id() { return EAXFLANGER_PHASE; } static constexpr auto eax_rate_param_id() { return EAXFLANGER_RATE; } static constexpr auto eax_depth_param_id() { return EAXFLANGER_DEPTH; } static constexpr auto eax_feedback_param_id() { return EAXFLANGER_FEEDBACK; } static constexpr auto eax_delay_param_id() { return EAXFLANGER_DELAY; } static constexpr auto eax_min_waveform() { return EAXFLANGER_MINWAVEFORM; } static constexpr auto eax_min_phase() { return EAXFLANGER_MINPHASE; } static constexpr auto eax_min_rate() { return EAXFLANGER_MINRATE; } static constexpr auto eax_min_depth() { return EAXFLANGER_MINDEPTH; } static constexpr auto eax_min_feedback() { return EAXFLANGER_MINFEEDBACK; } static constexpr auto eax_min_delay() { return EAXFLANGER_MINDELAY; } static constexpr auto eax_max_waveform() { return EAXFLANGER_MAXWAVEFORM; } static constexpr auto eax_max_phase() { return EAXFLANGER_MAXPHASE; } static constexpr auto eax_max_rate() { return EAXFLANGER_MAXRATE; } static constexpr auto eax_max_depth() { return EAXFLANGER_MAXDEPTH; } static constexpr auto eax_max_feedback() { return EAXFLANGER_MAXFEEDBACK; } static constexpr auto eax_max_delay() { return EAXFLANGER_MAXDELAY; } static constexpr auto eax_default_waveform() { return EAXFLANGER_DEFAULTWAVEFORM; } static constexpr auto eax_default_phase() { return EAXFLANGER_DEFAULTPHASE; } static constexpr auto eax_default_rate() { return EAXFLANGER_DEFAULTRATE; } static constexpr auto eax_default_depth() { return EAXFLANGER_DEFAULTDEPTH; } static constexpr auto eax_default_feedback() { return EAXFLANGER_DEFAULTFEEDBACK; } static constexpr auto eax_default_delay() { return EAXFLANGER_DEFAULTDELAY; } static constexpr auto efx_min_waveform() { return AL_FLANGER_MIN_WAVEFORM; } static constexpr auto efx_min_phase() { return AL_FLANGER_MIN_PHASE; } static constexpr auto efx_min_rate() { return AL_FLANGER_MIN_RATE; } static constexpr auto efx_min_depth() { return AL_FLANGER_MIN_DEPTH; } static constexpr auto efx_min_feedback() { return AL_FLANGER_MIN_FEEDBACK; } static constexpr auto efx_min_delay() { return AL_FLANGER_MIN_DELAY; } static constexpr auto efx_max_waveform() { return AL_FLANGER_MAX_WAVEFORM; } static constexpr auto efx_max_phase() { return AL_FLANGER_MAX_PHASE; } static constexpr auto efx_max_rate() { return AL_FLANGER_MAX_RATE; } static constexpr auto efx_max_depth() { return AL_FLANGER_MAX_DEPTH; } static constexpr auto efx_max_feedback() { return AL_FLANGER_MAX_FEEDBACK; } static constexpr auto efx_max_delay() { return AL_FLANGER_MAX_DELAY; } static constexpr auto efx_default_waveform() { return AL_FLANGER_DEFAULT_WAVEFORM; } static constexpr auto efx_default_phase() { return AL_FLANGER_DEFAULT_PHASE; } static constexpr auto efx_default_rate() { return AL_FLANGER_DEFAULT_RATE; } static constexpr auto efx_default_depth() { return AL_FLANGER_DEFAULT_DEPTH; } static constexpr auto efx_default_feedback() { return AL_FLANGER_DEFAULT_FEEDBACK; } static constexpr auto efx_default_delay() { return AL_FLANGER_DEFAULT_DELAY; } static ChorusWaveform eax_waveform(unsigned long type) { if(type == EAX_FLANGER_SINUSOID) return ChorusWaveform::Sinusoid; if(type == EAX_FLANGER_TRIANGLE) return ChorusWaveform::Triangle; return ChorusWaveform::Sinusoid; } }; // EaxFlangerTraits template struct ChorusFlangerEffect { using Traits = TTraits; using Committer = typename Traits::Committer; using Exception = typename Committer::Exception; static constexpr auto Field = Traits::Field; struct WaveformValidator { void operator()(unsigned long ulWaveform) const { eax_validate_range( "Waveform", ulWaveform, Traits::eax_min_waveform(), Traits::eax_max_waveform()); } }; // WaveformValidator struct PhaseValidator { void operator()(long lPhase) const { eax_validate_range( "Phase", lPhase, Traits::eax_min_phase(), Traits::eax_max_phase()); } }; // PhaseValidator struct RateValidator { void operator()(float flRate) const { eax_validate_range( "Rate", flRate, Traits::eax_min_rate(), Traits::eax_max_rate()); } }; // RateValidator struct DepthValidator { void operator()(float flDepth) const { eax_validate_range( "Depth", flDepth, Traits::eax_min_depth(), Traits::eax_max_depth()); } }; // DepthValidator struct FeedbackValidator { void operator()(float flFeedback) const { eax_validate_range( "Feedback", flFeedback, Traits::eax_min_feedback(), Traits::eax_max_feedback()); } }; // FeedbackValidator struct DelayValidator { void operator()(float flDelay) const { eax_validate_range( "Delay", flDelay, Traits::eax_min_delay(), Traits::eax_max_delay()); } }; // DelayValidator struct AllValidator { void operator()(const typename Traits::Props& all) const { WaveformValidator{}(all.ulWaveform); PhaseValidator{}(all.lPhase); RateValidator{}(all.flRate); DepthValidator{}(all.flDepth); FeedbackValidator{}(all.flFeedback); DelayValidator{}(all.flDelay); } }; // AllValidator public: static void SetDefaults(EaxEffectProps &props) { auto&& all = props.*Field; props.mType = Traits::eax_effect_type(); all.ulWaveform = Traits::eax_default_waveform(); all.lPhase = Traits::eax_default_phase(); all.flRate = Traits::eax_default_rate(); all.flDepth = Traits::eax_default_depth(); all.flFeedback = Traits::eax_default_feedback(); all.flDelay = Traits::eax_default_delay(); } static void Get(const EaxCall &call, const EaxEffectProps &props) { auto&& all = props.*Field; switch(call.get_property_id()) { case Traits::eax_none_param_id(): break; case Traits::eax_allparameters_param_id(): call.template set_value(all); break; case Traits::eax_waveform_param_id(): call.template set_value(all.ulWaveform); break; case Traits::eax_phase_param_id(): call.template set_value(all.lPhase); break; case Traits::eax_rate_param_id(): call.template set_value(all.flRate); break; case Traits::eax_depth_param_id(): call.template set_value(all.flDepth); break; case Traits::eax_feedback_param_id(): call.template set_value(all.flFeedback); break; case Traits::eax_delay_param_id(): call.template set_value(all.flDelay); break; default: Committer::fail_unknown_property_id(); } } static void Set(const EaxCall &call, EaxEffectProps &props) { auto&& all = props.*Field; switch(call.get_property_id()) { case Traits::eax_none_param_id(): break; case Traits::eax_allparameters_param_id(): Committer::template defer(call, all); break; case Traits::eax_waveform_param_id(): Committer::template defer(call, all.ulWaveform); break; case Traits::eax_phase_param_id(): Committer::template defer(call, all.lPhase); break; case Traits::eax_rate_param_id(): Committer::template defer(call, all.flRate); break; case Traits::eax_depth_param_id(): Committer::template defer(call, all.flDepth); break; case Traits::eax_feedback_param_id(): Committer::template defer(call, all.flFeedback); break; case Traits::eax_delay_param_id(): Committer::template defer(call, all.flDelay); break; default: Committer::fail_unknown_property_id(); } } static bool Commit(const EaxEffectProps &props, EaxEffectProps &props_, EffectProps &al_props_) { if(props.mType == props_.mType) { auto&& src = props_.*Field; auto&& dst = props.*Field; if(dst.ulWaveform == src.ulWaveform && dst.lPhase == src.lPhase && dst.flRate == src.flRate && dst.flDepth == src.flDepth && dst.flFeedback == src.flFeedback && dst.flDelay == src.flDelay) return false; } props_ = props; auto&& dst = props.*Field; al_props_.Chorus.Waveform = Traits::eax_waveform(dst.ulWaveform); al_props_.Chorus.Phase = static_cast(dst.lPhase); al_props_.Chorus.Rate = dst.flRate; al_props_.Chorus.Depth = dst.flDepth; al_props_.Chorus.Feedback = dst.flFeedback; al_props_.Chorus.Delay = dst.flDelay; return true; } }; // EaxChorusFlangerEffect using ChorusCommitter = EaxCommitter; using FlangerCommitter = EaxCommitter; } // namespace template<> struct ChorusCommitter::Exception : public EaxException { explicit Exception(const char *message) : EaxException{"EAX_CHORUS_EFFECT", message} { } }; template<> [[noreturn]] void ChorusCommitter::fail(const char *message) { throw Exception{message}; } template<> bool ChorusCommitter::commit(const EaxEffectProps &props) { using Committer = ChorusFlangerEffect; return Committer::Commit(props, mEaxProps, mAlProps); } template<> void ChorusCommitter::SetDefaults(EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::SetDefaults(props); } template<> void ChorusCommitter::Get(const EaxCall &call, const EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::Get(call, props); } template<> void ChorusCommitter::Set(const EaxCall &call, EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::Set(call, props); } template<> struct FlangerCommitter::Exception : public EaxException { explicit Exception(const char *message) : EaxException{"EAX_FLANGER_EFFECT", message} { } }; template<> [[noreturn]] void FlangerCommitter::fail(const char *message) { throw Exception{message}; } template<> bool FlangerCommitter::commit(const EaxEffectProps &props) { using Committer = ChorusFlangerEffect; return Committer::Commit(props, mEaxProps, mAlProps); } template<> void FlangerCommitter::SetDefaults(EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::SetDefaults(props); } template<> void FlangerCommitter::Get(const EaxCall &call, const EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::Get(call, props); } template<> void FlangerCommitter::Set(const EaxCall &call, EaxEffectProps &props) { using Committer = ChorusFlangerEffect; Committer::Set(call, props); } #endif // ALSOFT_EAX