diff options
| author | Chris Robinson <[email protected]> | 2018-11-19 09:29:22 -0800 |
|---|---|---|
| committer | Chris Robinson <[email protected]> | 2018-11-19 09:29:22 -0800 |
| commit | 55637ff1fc9a2d815e46bafcae3430c43e1b1eee (patch) | |
| tree | 9824d7c0465f740b2314866404d8573d3e8c26fc /Alc | |
| parent | 387a34ca002bdc25cc31fb8514c0fa2e44af6e1b (diff) | |
Rename reverb struct members
Diffstat (limited to 'Alc')
| -rw-r--r-- | Alc/effects/reverb.cpp | 448 |
1 files changed, 224 insertions, 224 deletions
diff --git a/Alc/effects/reverb.cpp b/Alc/effects/reverb.cpp index 68c76337..4fef38d1 100644 --- a/Alc/effects/reverb.cpp +++ b/Alc/effects/reverb.cpp @@ -280,8 +280,8 @@ struct ReverbState final : public ALeffectState { /* All delay lines are allocated as a single buffer to reduce memory * fragmentation and management code. */ - ALfloat *SampleBuffer; - ALuint TotalSamples; + ALfloat *mSampleBuffer; + ALuint mTotalSamples; struct { /* Calculated parameters which indicate if cross-fading is needed after @@ -290,45 +290,45 @@ struct ReverbState final : public ALeffectState { ALfloat Density, Diffusion; ALfloat DecayTime, HFDecayTime, LFDecayTime; ALfloat HFReference, LFReference; - } Params; + } mParams; /* Master effect filters */ struct { BiquadFilter Lp; BiquadFilter Hp; - } Filter[NUM_LINES]; + } mFilter[NUM_LINES]; /* Core delay line (early reflections and late reverb tap from this). */ - DelayLineI Delay; + DelayLineI mDelay; /* Tap points for early reflection delay. */ - ALsizei EarlyDelayTap[NUM_LINES][2]; - ALfloat EarlyDelayCoeff[NUM_LINES][2]; + ALsizei mEarlyDelayTap[NUM_LINES][2]; + ALfloat mEarlyDelayCoeff[NUM_LINES][2]; /* Tap points for late reverb feed and delay. */ - ALsizei LateFeedTap; - ALsizei LateDelayTap[NUM_LINES][2]; + ALsizei mLateFeedTap; + ALsizei mLateDelayTap[NUM_LINES][2]; /* Coefficients for the all-pass and line scattering matrices. */ - ALfloat MixX; - ALfloat MixY; + ALfloat mMixX; + ALfloat mMixY; - EarlyReflections Early; + EarlyReflections mEarly; - LateReverb Late; + LateReverb mLate; /* Indicates the cross-fade point for delay line reads [0,FADE_SAMPLES]. */ - ALsizei FadeCount; + ALsizei mFadeCount; /* Maximum number of samples to process at once. */ - ALsizei MaxUpdate[2]; + ALsizei mMaxUpdate[2]; /* The current write offset for all delay lines. */ - ALsizei Offset; + ALsizei mOffset; /* Temporary storage used when processing. */ - alignas(16) ALfloat TempSamples[NUM_LINES][MAX_UPDATE_SAMPLES]; - alignas(16) ALfloat MixSamples[NUM_LINES][MAX_UPDATE_SAMPLES]; + alignas(16) ALfloat mTempSamples[NUM_LINES][MAX_UPDATE_SAMPLES]; + alignas(16) ALfloat mMixBuffer[NUM_LINES][MAX_UPDATE_SAMPLES]; }; static ALvoid ReverbState_Destruct(ReverbState *State); @@ -346,102 +346,102 @@ static void ReverbState_Construct(ReverbState *state) ALeffectState_Construct(STATIC_CAST(ALeffectState, state)); SET_VTABLE2(ReverbState, ALeffectState, state); - state->TotalSamples = 0; - state->SampleBuffer = NULL; + state->mTotalSamples = 0; + state->mSampleBuffer = NULL; - state->Params.Density = AL_EAXREVERB_DEFAULT_DENSITY; - state->Params.Diffusion = AL_EAXREVERB_DEFAULT_DIFFUSION; - state->Params.DecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME; - state->Params.HFDecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME*AL_EAXREVERB_DEFAULT_DECAY_HFRATIO; - state->Params.LFDecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME*AL_EAXREVERB_DEFAULT_DECAY_LFRATIO; - state->Params.HFReference = AL_EAXREVERB_DEFAULT_HFREFERENCE; - state->Params.LFReference = AL_EAXREVERB_DEFAULT_LFREFERENCE; + state->mParams.Density = AL_EAXREVERB_DEFAULT_DENSITY; + state->mParams.Diffusion = AL_EAXREVERB_DEFAULT_DIFFUSION; + state->mParams.DecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME; + state->mParams.HFDecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME*AL_EAXREVERB_DEFAULT_DECAY_HFRATIO; + state->mParams.LFDecayTime = AL_EAXREVERB_DEFAULT_DECAY_TIME*AL_EAXREVERB_DEFAULT_DECAY_LFRATIO; + state->mParams.HFReference = AL_EAXREVERB_DEFAULT_HFREFERENCE; + state->mParams.LFReference = AL_EAXREVERB_DEFAULT_LFREFERENCE; for(ALsizei i{0};i < NUM_LINES;i++) { - BiquadFilter_clear(&state->Filter[i].Lp); - BiquadFilter_clear(&state->Filter[i].Hp); + BiquadFilter_clear(&state->mFilter[i].Lp); + BiquadFilter_clear(&state->mFilter[i].Hp); } - state->Delay.Mask = 0; - state->Delay.Line = NULL; + state->mDelay.Mask = 0; + state->mDelay.Line = NULL; for(ALsizei i{0};i < NUM_LINES;i++) { - state->EarlyDelayTap[i][0] = 0; - state->EarlyDelayTap[i][1] = 0; - state->EarlyDelayCoeff[i][0] = 0.0f; - state->EarlyDelayCoeff[i][1] = 0.0f; + state->mEarlyDelayTap[i][0] = 0; + state->mEarlyDelayTap[i][1] = 0; + state->mEarlyDelayCoeff[i][0] = 0.0f; + state->mEarlyDelayCoeff[i][1] = 0.0f; } - state->LateFeedTap = 0; + state->mLateFeedTap = 0; for(ALsizei i{0};i < NUM_LINES;i++) { - state->LateDelayTap[i][0] = 0; - state->LateDelayTap[i][1] = 0; + state->mLateDelayTap[i][0] = 0; + state->mLateDelayTap[i][1] = 0; } - state->MixX = 0.0f; - state->MixY = 0.0f; + state->mMixX = 0.0f; + state->mMixY = 0.0f; - state->Early.VecAp.Delay.Mask = 0; - state->Early.VecAp.Delay.Line = NULL; - state->Early.VecAp.Coeff = 0.0f; - state->Early.Delay.Mask = 0; - state->Early.Delay.Line = NULL; + state->mEarly.VecAp.Delay.Mask = 0; + state->mEarly.VecAp.Delay.Line = NULL; + state->mEarly.VecAp.Coeff = 0.0f; + state->mEarly.Delay.Mask = 0; + state->mEarly.Delay.Line = NULL; for(ALsizei i{0};i < NUM_LINES;i++) { - state->Early.VecAp.Offset[i][0] = 0; - state->Early.VecAp.Offset[i][1] = 0; - state->Early.Offset[i][0] = 0; - state->Early.Offset[i][1] = 0; - state->Early.Coeff[i][0] = 0.0f; - state->Early.Coeff[i][1] = 0.0f; + state->mEarly.VecAp.Offset[i][0] = 0; + state->mEarly.VecAp.Offset[i][1] = 0; + state->mEarly.Offset[i][0] = 0; + state->mEarly.Offset[i][1] = 0; + state->mEarly.Coeff[i][0] = 0.0f; + state->mEarly.Coeff[i][1] = 0.0f; } - state->Late.DensityGain[0] = 0.0f; - state->Late.DensityGain[1] = 0.0f; - state->Late.Delay.Mask = 0; - state->Late.Delay.Line = NULL; - state->Late.VecAp.Delay.Mask = 0; - state->Late.VecAp.Delay.Line = NULL; - state->Late.VecAp.Coeff = 0.0f; + state->mLate.DensityGain[0] = 0.0f; + state->mLate.DensityGain[1] = 0.0f; + state->mLate.Delay.Mask = 0; + state->mLate.Delay.Line = NULL; + state->mLate.VecAp.Delay.Mask = 0; + state->mLate.VecAp.Delay.Line = NULL; + state->mLate.VecAp.Coeff = 0.0f; for(ALsizei i{0};i < NUM_LINES;i++) { - state->Late.Offset[i][0] = 0; - state->Late.Offset[i][1] = 0; + state->mLate.Offset[i][0] = 0; + state->mLate.Offset[i][1] = 0; - state->Late.VecAp.Offset[i][0] = 0; - state->Late.VecAp.Offset[i][1] = 0; + state->mLate.VecAp.Offset[i][0] = 0; + state->mLate.VecAp.Offset[i][1] = 0; - state->Late.T60[i].MidGain[0] = 0.0f; - state->Late.T60[i].MidGain[1] = 0.0f; - BiquadFilter_clear(&state->Late.T60[i].HFFilter); - BiquadFilter_clear(&state->Late.T60[i].LFFilter); + state->mLate.T60[i].MidGain[0] = 0.0f; + state->mLate.T60[i].MidGain[1] = 0.0f; + BiquadFilter_clear(&state->mLate.T60[i].HFFilter); + BiquadFilter_clear(&state->mLate.T60[i].LFFilter); } for(ALsizei i{0};i < NUM_LINES;i++) { for(ALsizei j{0};j < MAX_OUTPUT_CHANNELS;j++) { - state->Early.CurrentGain[i][j] = 0.0f; - state->Early.PanGain[i][j] = 0.0f; - state->Late.CurrentGain[i][j] = 0.0f; - state->Late.PanGain[i][j] = 0.0f; + state->mEarly.CurrentGain[i][j] = 0.0f; + state->mEarly.PanGain[i][j] = 0.0f; + state->mLate.CurrentGain[i][j] = 0.0f; + state->mLate.PanGain[i][j] = 0.0f; } } - state->FadeCount = 0; - state->MaxUpdate[0] = MAX_UPDATE_SAMPLES; - state->MaxUpdate[1] = MAX_UPDATE_SAMPLES; - state->Offset = 0; + state->mFadeCount = 0; + state->mMaxUpdate[0] = MAX_UPDATE_SAMPLES; + state->mMaxUpdate[1] = MAX_UPDATE_SAMPLES; + state->mOffset = 0; } static ALvoid ReverbState_Destruct(ReverbState *State) { - al_free(State->SampleBuffer); - State->SampleBuffer = NULL; + al_free(State->mSampleBuffer); + State->mSampleBuffer = NULL; ALeffectState_Destruct(STATIC_CAST(ALeffectState,State)); State->~ReverbState(); @@ -517,31 +517,31 @@ static ALboolean AllocLines(const ALuint frequency, ReverbState *State) AL_EAXREVERB_MAX_LATE_REVERB_DELAY + (LATE_LINE_LENGTHS[NUM_LINES-1] - LATE_LINE_LENGTHS[0])*0.25f*multiplier; totalSamples += CalcLineLength(length, totalSamples, frequency, MAX_UPDATE_SAMPLES, - &State->Delay); + &State->mDelay); /* The early vector all-pass line. */ length = EARLY_ALLPASS_LENGTHS[NUM_LINES-1] * multiplier; totalSamples += CalcLineLength(length, totalSamples, frequency, 0, - &State->Early.VecAp.Delay); + &State->mEarly.VecAp.Delay); /* The early reflection line. */ length = EARLY_LINE_LENGTHS[NUM_LINES-1] * multiplier; totalSamples += CalcLineLength(length, totalSamples, frequency, 0, - &State->Early.Delay); + &State->mEarly.Delay); /* The late vector all-pass line. */ length = LATE_ALLPASS_LENGTHS[NUM_LINES-1] * multiplier; totalSamples += CalcLineLength(length, totalSamples, frequency, 0, - &State->Late.VecAp.Delay); + &State->mLate.VecAp.Delay); /* The late delay lines are calculated from the largest maximum density * line length. */ length = LATE_LINE_LENGTHS[NUM_LINES-1] * multiplier; totalSamples += CalcLineLength(length, totalSamples, frequency, 0, - &State->Late.Delay); + &State->mLate.Delay); - if(totalSamples != State->TotalSamples) + if(totalSamples != State->mTotalSamples) { ALfloat *newBuffer; @@ -550,21 +550,21 @@ static ALboolean AllocLines(const ALuint frequency, ReverbState *State) sizeof(ALfloat[NUM_LINES]) * totalSamples)); if(!newBuffer) return AL_FALSE; - al_free(State->SampleBuffer); - State->SampleBuffer = newBuffer; - State->TotalSamples = totalSamples; + al_free(State->mSampleBuffer); + State->mSampleBuffer = newBuffer; + State->mTotalSamples = totalSamples; } /* Update all delays to reflect the new sample buffer. */ - RealizeLineOffset(State->SampleBuffer, &State->Delay); - RealizeLineOffset(State->SampleBuffer, &State->Early.VecAp.Delay); - RealizeLineOffset(State->SampleBuffer, &State->Early.Delay); - RealizeLineOffset(State->SampleBuffer, &State->Late.VecAp.Delay); - RealizeLineOffset(State->SampleBuffer, &State->Late.Delay); + RealizeLineOffset(State->mSampleBuffer, &State->mDelay); + RealizeLineOffset(State->mSampleBuffer, &State->mEarly.VecAp.Delay); + RealizeLineOffset(State->mSampleBuffer, &State->mEarly.Delay); + RealizeLineOffset(State->mSampleBuffer, &State->mLate.VecAp.Delay); + RealizeLineOffset(State->mSampleBuffer, &State->mLate.Delay); /* Clear the sample buffer. */ - for(i = 0;i < State->TotalSamples;i++) - State->SampleBuffer[i] = 0.0f; + for(i = 0;i < State->mTotalSamples;i++) + State->mSampleBuffer[i] = 0.0f; return AL_TRUE; } @@ -582,57 +582,57 @@ static ALboolean ReverbState_deviceUpdate(ReverbState *State, ALCdevice *Device) multiplier = CalcDelayLengthMult(AL_EAXREVERB_MAX_DENSITY); /* The late feed taps are set a fixed position past the latest delay tap. */ - State->LateFeedTap = float2int((AL_EAXREVERB_MAX_REFLECTIONS_DELAY + - EARLY_TAP_LENGTHS[NUM_LINES-1]*multiplier) * - frequency); + State->mLateFeedTap = float2int((AL_EAXREVERB_MAX_REFLECTIONS_DELAY + + EARLY_TAP_LENGTHS[NUM_LINES-1]*multiplier) * + frequency); /* Clear filters and gain coefficients since the delay lines were all just * cleared (if not reallocated). */ for(i = 0;i < NUM_LINES;i++) { - BiquadFilter_clear(&State->Filter[i].Lp); - BiquadFilter_clear(&State->Filter[i].Hp); + BiquadFilter_clear(&State->mFilter[i].Lp); + BiquadFilter_clear(&State->mFilter[i].Hp); } for(i = 0;i < NUM_LINES;i++) { - State->EarlyDelayCoeff[i][0] = 0.0f; - State->EarlyDelayCoeff[i][1] = 0.0f; + State->mEarlyDelayCoeff[i][0] = 0.0f; + State->mEarlyDelayCoeff[i][1] = 0.0f; } for(i = 0;i < NUM_LINES;i++) { - State->Early.Coeff[i][0] = 0.0f; - State->Early.Coeff[i][1] = 0.0f; + State->mEarly.Coeff[i][0] = 0.0f; + State->mEarly.Coeff[i][1] = 0.0f; } - State->Late.DensityGain[0] = 0.0f; - State->Late.DensityGain[1] = 0.0f; + State->mLate.DensityGain[0] = 0.0f; + State->mLate.DensityGain[1] = 0.0f; for(i = 0;i < NUM_LINES;i++) { - State->Late.T60[i].MidGain[0] = 0.0f; - State->Late.T60[i].MidGain[1] = 0.0f; - BiquadFilter_clear(&State->Late.T60[i].HFFilter); - BiquadFilter_clear(&State->Late.T60[i].LFFilter); + State->mLate.T60[i].MidGain[0] = 0.0f; + State->mLate.T60[i].MidGain[1] = 0.0f; + BiquadFilter_clear(&State->mLate.T60[i].HFFilter); + BiquadFilter_clear(&State->mLate.T60[i].LFFilter); } for(i = 0;i < NUM_LINES;i++) { for(j = 0;j < MAX_OUTPUT_CHANNELS;j++) { - State->Early.CurrentGain[i][j] = 0.0f; - State->Early.PanGain[i][j] = 0.0f; - State->Late.CurrentGain[i][j] = 0.0f; - State->Late.PanGain[i][j] = 0.0f; + State->mEarly.CurrentGain[i][j] = 0.0f; + State->mEarly.PanGain[i][j] = 0.0f; + State->mLate.CurrentGain[i][j] = 0.0f; + State->mLate.PanGain[i][j] = 0.0f; } } /* Reset counters and offset base. */ - State->FadeCount = 0; - State->MaxUpdate[0] = MAX_UPDATE_SAMPLES; - State->MaxUpdate[1] = MAX_UPDATE_SAMPLES; - State->Offset = 0; + State->mFadeCount = 0; + State->mMaxUpdate[0] = MAX_UPDATE_SAMPLES; + State->mMaxUpdate[1] = MAX_UPDATE_SAMPLES; + State->mOffset = 0; return AL_TRUE; } @@ -755,13 +755,13 @@ static ALvoid UpdateDelayLine(const ALfloat earlyDelay, const ALfloat lateDelay, for(i = 0;i < NUM_LINES;i++) { length = earlyDelay + EARLY_TAP_LENGTHS[i]*multiplier; - State->EarlyDelayTap[i][1] = float2int(length * frequency); + State->mEarlyDelayTap[i][1] = float2int(length * frequency); length = EARLY_TAP_LENGTHS[i]*multiplier; - State->EarlyDelayCoeff[i][1] = CalcDecayCoeff(length, decayTime); + State->mEarlyDelayCoeff[i][1] = CalcDecayCoeff(length, decayTime); length = lateDelay + (LATE_LINE_LENGTHS[i] - LATE_LINE_LENGTHS[0])*0.25f*multiplier; - State->LateDelayTap[i][1] = State->LateFeedTap + float2int(length * frequency); + State->mLateDelayTap[i][1] = State->mLateFeedTap + float2int(length * frequency); } } @@ -934,17 +934,17 @@ static ALvoid Update3DPanning(const ALCdevice *Device, const ALfloat *Reflection */ rot = GetTransformFromVector(ReflectionsPan); MATRIX_MULT(transform, rot, A2B); - memset(&State->Early.PanGain, 0, sizeof(State->Early.PanGain)); + memset(&State->mEarly.PanGain, 0, sizeof(State->mEarly.PanGain)); for(i = 0;i < MAX_EFFECT_CHANNELS;i++) ComputePanGains(&Device->FOAOut, transform.m[i], earlyGain, - State->Early.PanGain[i]); + State->mEarly.PanGain[i]); rot = GetTransformFromVector(LateReverbPan); MATRIX_MULT(transform, rot, A2B); - memset(&State->Late.PanGain, 0, sizeof(State->Late.PanGain)); + memset(&State->mLate.PanGain, 0, sizeof(State->mLate.PanGain)); for(i = 0;i < MAX_EFFECT_CHANNELS;i++) ComputePanGains(&Device->FOAOut, transform.m[i], lateGain, - State->Late.PanGain[i]); + State->mLate.PanGain[i]); #undef MATRIX_MULT } @@ -964,16 +964,16 @@ static void ReverbState_update(ReverbState *State, const ALCcontext *Context, co * killing most of the signal. */ gainhf = maxf(props->Reverb.GainHF, 0.001f); - BiquadFilter_setParams(&State->Filter[0].Lp, BiquadType::HighShelf, gainhf, hf0norm, + BiquadFilter_setParams(&State->mFilter[0].Lp, BiquadType::HighShelf, gainhf, hf0norm, calc_rcpQ_from_slope(gainhf, 1.0f)); lf0norm = minf(props->Reverb.LFReference / frequency, 0.49f); gainlf = maxf(props->Reverb.GainLF, 0.001f); - BiquadFilter_setParams(&State->Filter[0].Hp, BiquadType::LowShelf, gainlf, lf0norm, + BiquadFilter_setParams(&State->mFilter[0].Hp, BiquadType::LowShelf, gainlf, lf0norm, calc_rcpQ_from_slope(gainlf, 1.0f)); for(i = 1;i < NUM_LINES;i++) { - BiquadFilter_copyParams(&State->Filter[i].Lp, &State->Filter[0].Lp); - BiquadFilter_copyParams(&State->Filter[i].Hp, &State->Filter[0].Hp); + BiquadFilter_copyParams(&State->mFilter[i].Lp, &State->mFilter[0].Lp); + BiquadFilter_copyParams(&State->mFilter[i].Hp, &State->mFilter[0].Hp); } /* Update the main effect delay and associated taps. */ @@ -983,10 +983,10 @@ static void ReverbState_update(ReverbState *State, const ALCcontext *Context, co /* Update the early lines. */ UpdateEarlyLines(props->Reverb.Density, props->Reverb.Diffusion, - props->Reverb.DecayTime, frequency, &State->Early); + props->Reverb.DecayTime, frequency, &State->mEarly); /* Get the mixing matrix coefficients. */ - CalcMatrixCoeffs(props->Reverb.Diffusion, &State->MixX, &State->MixY); + CalcMatrixCoeffs(props->Reverb.Diffusion, &State->mMixX, &State->mMixY); /* If the HF limit parameter is flagged, calculate an appropriate limit * based on the air absorption parameter. @@ -1006,7 +1006,7 @@ static void ReverbState_update(ReverbState *State, const ALCcontext *Context, co /* Update the late lines. */ UpdateLateLines(props->Reverb.Density, props->Reverb.Diffusion, lfDecayTime, props->Reverb.DecayTime, hfDecayTime, lf0norm, hf0norm, - frequency, &State->Late + frequency, &State->mLate ); /* Update early and late 3D panning. */ @@ -1016,35 +1016,35 @@ static void ReverbState_update(ReverbState *State, const ALCcontext *Context, co State); /* Calculate the max update size from the smallest relevant delay. */ - State->MaxUpdate[1] = mini(MAX_UPDATE_SAMPLES, - mini(State->Early.Offset[0][1], State->Late.Offset[0][1]) + State->mMaxUpdate[1] = mini(MAX_UPDATE_SAMPLES, + mini(State->mEarly.Offset[0][1], State->mLate.Offset[0][1]) ); /* Determine if delay-line cross-fading is required. Density is essentially * a master control for the feedback delays, so changes the offsets of many * delay lines. */ - if(State->Params.Density != props->Reverb.Density || + if(State->mParams.Density != props->Reverb.Density || /* Diffusion and decay times influences the decay rate (gain) of the * late reverb T60 filter. */ - State->Params.Diffusion != props->Reverb.Diffusion || - State->Params.DecayTime != props->Reverb.DecayTime || - State->Params.HFDecayTime != hfDecayTime || - State->Params.LFDecayTime != lfDecayTime || + State->mParams.Diffusion != props->Reverb.Diffusion || + State->mParams.DecayTime != props->Reverb.DecayTime || + State->mParams.HFDecayTime != hfDecayTime || + State->mParams.LFDecayTime != lfDecayTime || /* HF/LF References control the weighting used to calculate the density * gain. */ - State->Params.HFReference != props->Reverb.HFReference || - State->Params.LFReference != props->Reverb.LFReference) - State->FadeCount = 0; - State->Params.Density = props->Reverb.Density; - State->Params.Diffusion = props->Reverb.Diffusion; - State->Params.DecayTime = props->Reverb.DecayTime; - State->Params.HFDecayTime = hfDecayTime; - State->Params.LFDecayTime = lfDecayTime; - State->Params.HFReference = props->Reverb.HFReference; - State->Params.LFReference = props->Reverb.LFReference; + State->mParams.HFReference != props->Reverb.HFReference || + State->mParams.LFReference != props->Reverb.LFReference) + State->mFadeCount = 0; + State->mParams.Density = props->Reverb.Density; + State->mParams.Diffusion = props->Reverb.Diffusion; + State->mParams.DecayTime = props->Reverb.DecayTime; + State->mParams.HFDecayTime = hfDecayTime; + State->mParams.LFDecayTime = lfDecayTime; + State->mParams.HFReference = props->Reverb.HFReference; + State->mParams.LFReference = props->Reverb.LFReference; } @@ -1247,11 +1247,11 @@ static void VectorAllpass_Faded(ALfloat (*RESTRICT samples)[MAX_UPDATE_SAMPLES], static void EarlyReflection_Unfaded(ReverbState *State, ALsizei offset, const ALsizei todo, ALfloat (*RESTRICT out)[MAX_UPDATE_SAMPLES]) { - ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->TempSamples; - const DelayLineI early_delay = State->Early.Delay; - const DelayLineI main_delay = State->Delay; - const ALfloat mixX = State->MixX; - const ALfloat mixY = State->MixY; + ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->mTempSamples; + const DelayLineI early_delay = State->mEarly.Delay; + const DelayLineI main_delay = State->mDelay; + const ALfloat mixX = State->mMixX; + const ALfloat mixY = State->mMixY; ALsizei late_feed_tap; ALsizei i, j; @@ -1262,8 +1262,8 @@ static void EarlyReflection_Unfaded(ReverbState *State, ALsizei offset, const AL */ for(j = 0;j < NUM_LINES;j++) { - ALsizei early_delay_tap = offset - State->EarlyDelayTap[j][0]; - ALfloat coeff = State->EarlyDelayCoeff[j][0]; + ALsizei early_delay_tap = offset - State->mEarlyDelayTap[j][0]; + ALfloat coeff = State->mEarlyDelayCoeff[j][0]; for(i = 0;i < todo;i++) temps[j][i] = DelayLineOut(&main_delay, early_delay_tap++, j) * coeff; } @@ -1271,15 +1271,15 @@ static void EarlyReflection_Unfaded(ReverbState *State, ALsizei offset, const AL /* Apply a vector all-pass, to help color the initial reflections based on * the diffusion strength. */ - VectorAllpass_Unfaded(temps, offset, mixX, mixY, todo, &State->Early.VecAp); + VectorAllpass_Unfaded(temps, offset, mixX, mixY, todo, &State->mEarly.VecAp); /* Apply a delay and bounce to generate secondary reflections, combine with * the primary reflections and write out the result for mixing. */ for(j = 0;j < NUM_LINES;j++) { - ALint early_feedb_tap = offset - State->Early.Offset[j][0]; - ALfloat early_feedb_coeff = State->Early.Coeff[j][0]; + ALint early_feedb_tap = offset - State->mEarly.Offset[j][0]; + ALfloat early_feedb_coeff = State->mEarly.Coeff[j][0]; for(i = 0;i < todo;i++) out[j][i] = DelayLineOut(&early_delay, early_feedb_tap++, j)*early_feedb_coeff + @@ -1292,17 +1292,17 @@ static void EarlyReflection_Unfaded(ReverbState *State, ALsizei offset, const AL * stage to pick up at the appropriate time, appplying a scatter and * bounce to improve the initial diffusion in the late reverb. */ - late_feed_tap = offset - State->LateFeedTap; + late_feed_tap = offset - State->mLateFeedTap; VectorScatterRevDelayIn(&main_delay, late_feed_tap, mixX, mixY, out, todo); } static void EarlyReflection_Faded(ReverbState *State, ALsizei offset, const ALsizei todo, const ALfloat fade, ALfloat (*RESTRICT out)[MAX_UPDATE_SAMPLES]) { - ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->TempSamples; - const DelayLineI early_delay = State->Early.Delay; - const DelayLineI main_delay = State->Delay; - const ALfloat mixX = State->MixX; - const ALfloat mixY = State->MixY; + ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->mTempSamples; + const DelayLineI early_delay = State->mEarly.Delay; + const DelayLineI main_delay = State->mDelay; + const ALfloat mixX = State->mMixX; + const ALfloat mixY = State->mMixY; ALsizei late_feed_tap; ALsizei i, j; @@ -1310,11 +1310,11 @@ static void EarlyReflection_Faded(ReverbState *State, ALsizei offset, const ALsi for(j = 0;j < NUM_LINES;j++) { - ALsizei early_delay_tap0 = offset - State->EarlyDelayTap[j][0]; - ALsizei early_delay_tap1 = offset - State->EarlyDelayTap[j][1]; - ALfloat oldCoeff = State->EarlyDelayCoeff[j][0]; + ALsizei early_delay_tap0 = offset - State->mEarlyDelayTap[j][0]; + ALsizei early_delay_tap1 = offset - State->mEarlyDelayTap[j][1]; + ALfloat oldCoeff = State->mEarlyDelayCoeff[j][0]; ALfloat oldCoeffStep = -oldCoeff / FADE_SAMPLES; - ALfloat newCoeffStep = State->EarlyDelayCoeff[j][1] / FADE_SAMPLES; + ALfloat newCoeffStep = State->mEarlyDelayCoeff[j][1] / FADE_SAMPLES; ALfloat fadeCount = fade; for(i = 0;i < todo;i++) @@ -1328,15 +1328,15 @@ static void EarlyReflection_Faded(ReverbState *State, ALsizei offset, const ALsi } } - VectorAllpass_Faded(temps, offset, mixX, mixY, fade, todo, &State->Early.VecAp); + VectorAllpass_Faded(temps, offset, mixX, mixY, fade, todo, &State->mEarly.VecAp); for(j = 0;j < NUM_LINES;j++) { - ALint feedb_tap0 = offset - State->Early.Offset[j][0]; - ALint feedb_tap1 = offset - State->Early.Offset[j][1]; - ALfloat feedb_oldCoeff = State->Early.Coeff[j][0]; + ALint feedb_tap0 = offset - State->mEarly.Offset[j][0]; + ALint feedb_tap1 = offset - State->mEarly.Offset[j][1]; + ALfloat feedb_oldCoeff = State->mEarly.Coeff[j][0]; ALfloat feedb_oldCoeffStep = -feedb_oldCoeff / FADE_SAMPLES; - ALfloat feedb_newCoeffStep = State->Early.Coeff[j][1] / FADE_SAMPLES; + ALfloat feedb_newCoeffStep = State->mEarly.Coeff[j][1] / FADE_SAMPLES; ALfloat fadeCount = fade; for(i = 0;i < todo;i++) @@ -1352,7 +1352,7 @@ static void EarlyReflection_Faded(ReverbState *State, ALsizei offset, const ALsi for(j = 0;j < NUM_LINES;j++) DelayLineIn(&early_delay, offset, NUM_LINES-1-j, temps[j], todo); - late_feed_tap = offset - State->LateFeedTap; + late_feed_tap = offset - State->mLateFeedTap; VectorScatterRevDelayIn(&main_delay, late_feed_tap, mixX, mixY, out, todo); } @@ -1381,11 +1381,11 @@ static inline void LateT60Filter(ALfloat *RESTRICT samples, const ALsizei todo, static void LateReverb_Unfaded(ReverbState *State, ALsizei offset, const ALsizei todo, ALfloat (*RESTRICT out)[MAX_UPDATE_SAMPLES]) { - ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->TempSamples; - const DelayLineI late_delay = State->Late.Delay; - const DelayLineI main_delay = State->Delay; - const ALfloat mixX = State->MixX; - const ALfloat mixY = State->MixY; + ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->mTempSamples; + const DelayLineI late_delay = State->mLate.Delay; + const DelayLineI main_delay = State->mDelay; + const ALfloat mixX = State->mMixX; + const ALfloat mixY = State->mMixY; ALsizei i, j; ASSUME(todo > 0); @@ -1395,20 +1395,20 @@ static void LateReverb_Unfaded(ReverbState *State, ALsizei offset, const ALsizei */ for(j = 0;j < NUM_LINES;j++) { - ALsizei late_delay_tap = offset - State->LateDelayTap[j][0]; - ALsizei late_feedb_tap = offset - State->Late.Offset[j][0]; - ALfloat midGain = State->Late.T60[j].MidGain[0]; - const ALfloat densityGain = State->Late.DensityGain[0] * midGain; + ALsizei late_delay_tap = offset - State->mLateDelayTap[j][0]; + ALsizei late_feedb_tap = offset - State->mLate.Offset[j][0]; + ALfloat midGain = State->mLate.T60[j].MidGain[0]; + const ALfloat densityGain = State->mLate.DensityGain[0] * midGain; for(i = 0;i < todo;i++) temps[j][i] = DelayLineOut(&main_delay, late_delay_tap++, j)*densityGain + DelayLineOut(&late_delay, late_feedb_tap++, j)*midGain; - LateT60Filter(temps[j], todo, &State->Late.T60[j]); + LateT60Filter(temps[j], todo, &State->mLate.T60[j]); } /* Apply a vector all-pass to improve micro-surface diffusion, and write * out the results for mixing. */ - VectorAllpass_Unfaded(temps, offset, mixX, mixY, todo, &State->Late.VecAp); + VectorAllpass_Unfaded(temps, offset, mixX, mixY, todo, &State->mLate.VecAp); for(j = 0;j < NUM_LINES;j++) memcpy(out[j], temps[j], todo*sizeof(ALfloat)); @@ -1419,29 +1419,29 @@ static void LateReverb_Unfaded(ReverbState *State, ALsizei offset, const ALsizei static void LateReverb_Faded(ReverbState *State, ALsizei offset, const ALsizei todo, const ALfloat fade, ALfloat (*RESTRICT out)[MAX_UPDATE_SAMPLES]) { - ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->TempSamples; - const DelayLineI late_delay = State->Late.Delay; - const DelayLineI main_delay = State->Delay; - const ALfloat mixX = State->MixX; - const ALfloat mixY = State->MixY; + ALfloat (*RESTRICT temps)[MAX_UPDATE_SAMPLES] = State->mTempSamples; + const DelayLineI late_delay = State->mLate.Delay; + const DelayLineI main_delay = State->mDelay; + const ALfloat mixX = State->mMixX; + const ALfloat mixY = State->mMixY; ALsizei i, j; ASSUME(todo > 0); for(j = 0;j < NUM_LINES;j++) { - const ALfloat oldMidGain = State->Late.T60[j].MidGain[0]; - const ALfloat midGain = State->Late.T60[j].MidGain[1]; + const ALfloat oldMidGain = State->mLate.T60[j].MidGain[0]; + const ALfloat midGain = State->mLate.T60[j].MidGain[1]; const ALfloat oldMidStep = -oldMidGain / FADE_SAMPLES; const ALfloat midStep = midGain / FADE_SAMPLES; - const ALfloat oldDensityGain = State->Late.DensityGain[0] * oldMidGain; - const ALfloat densityGain = State->Late.DensityGain[1] * midGain; + const ALfloat oldDensityGain = State->mLate.DensityGain[0] * oldMidGain; + const ALfloat densityGain = State->mLate.DensityGain[1] * midGain; const ALfloat oldDensityStep = -oldDensityGain / FADE_SAMPLES; const ALfloat densityStep = densityGain / FADE_SAMPLES; - ALsizei late_delay_tap0 = offset - State->LateDelayTap[j][0]; - ALsizei late_delay_tap1 = offset - State->LateDelayTap[j][1]; - ALsizei late_feedb_tap0 = offset - State->Late.Offset[j][0]; - ALsizei late_feedb_tap1 = offset - State->Late.Offset[j][1]; + ALsizei late_delay_tap0 = offset - State->mLateDelayTap[j][0]; + ALsizei late_delay_tap1 = offset - State->mLateDelayTap[j][1]; + ALsizei late_feedb_tap0 = offset - State->mLate.Offset[j][0]; + ALsizei late_feedb_tap1 = offset - State->mLate.Offset[j][1]; ALfloat fadeCount = fade; for(i = 0;i < todo;i++) @@ -1457,10 +1457,10 @@ static void LateReverb_Faded(ReverbState *State, ALsizei offset, const ALsizei t gfade0, gfade1); fadeCount += 1.0f; } - LateT60Filter(temps[j], todo, &State->Late.T60[j]); + LateT60Filter(temps[j], todo, &State->mLate.T60[j]); } - VectorAllpass_Faded(temps, offset, mixX, mixY, fade, todo, &State->Late.VecAp); + VectorAllpass_Faded(temps, offset, mixX, mixY, fade, todo, &State->mLate.VecAp); for(j = 0;j < NUM_LINES;j++) memcpy(out[j], temps[j], todo*sizeof(ALfloat)); @@ -1470,10 +1470,10 @@ static void LateReverb_Faded(ReverbState *State, ALsizei offset, const ALsizei t static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const ALfloat (*RESTRICT SamplesIn)[BUFFERSIZE], ALfloat (*RESTRICT SamplesOut)[BUFFERSIZE], ALsizei NumChannels) { - ALfloat (*RESTRICT afmt)[MAX_UPDATE_SAMPLES] = State->TempSamples; - ALfloat (*RESTRICT samples)[MAX_UPDATE_SAMPLES] = State->MixSamples; - ALsizei fadeCount = State->FadeCount; - ALsizei offset = State->Offset; + ALfloat (*RESTRICT afmt)[MAX_UPDATE_SAMPLES] = State->mTempSamples; + ALfloat (*RESTRICT samples)[MAX_UPDATE_SAMPLES] = State->mMixBuffer; + ALsizei fadeCount = State->mFadeCount; + ALsizei offset = State->mOffset; ALsizei base, c; /* Process reverb for these samples. */ @@ -1484,9 +1484,9 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const if(FADE_SAMPLES-fadeCount > 0) { todo = mini(todo, FADE_SAMPLES-fadeCount); - todo = mini(todo, State->MaxUpdate[0]); + todo = mini(todo, State->mMaxUpdate[0]); } - todo = mini(todo, State->MaxUpdate[1]); + todo = mini(todo, State->mMaxUpdate[1]); /* If this is not the final update, ensure the update size is a * multiple of 4 for the SIMD mixers. */ @@ -1504,11 +1504,11 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const for(c = 0;c < NUM_LINES;c++) { /* Band-pass the incoming samples. */ - BiquadFilter_process(&State->Filter[c].Lp, samples[0], afmt[c], todo); - BiquadFilter_process(&State->Filter[c].Hp, samples[1], samples[0], todo); + BiquadFilter_process(&State->mFilter[c].Lp, samples[0], afmt[c], todo); + BiquadFilter_process(&State->mFilter[c].Hp, samples[1], samples[0], todo); /* Feed the initial delay line. */ - DelayLineIn(&State->Delay, offset, c, samples[1], todo); + DelayLineIn(&State->mDelay, offset, c, samples[1], todo); } if(UNLIKELY(fadeCount < FADE_SAMPLES)) @@ -1522,7 +1522,7 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const */ for(c = 0;c < NUM_LINES;c++) MixSamples(samples[c], NumChannels, SamplesOut, - State->Early.CurrentGain[c], State->Early.PanGain[c], + State->mEarly.CurrentGain[c], State->mEarly.PanGain[c], SamplesToDo-base, base, todo ); @@ -1530,7 +1530,7 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const LateReverb_Faded(State, offset, todo, fade, samples); for(c = 0;c < NUM_LINES;c++) MixSamples(samples[c], NumChannels, SamplesOut, - State->Late.CurrentGain[c], State->Late.PanGain[c], + State->mLate.CurrentGain[c], State->mLate.PanGain[c], SamplesToDo-base, base, todo ); @@ -1542,18 +1542,18 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const fadeCount = FADE_SAMPLES; for(c = 0;c < NUM_LINES;c++) { - State->EarlyDelayTap[c][0] = State->EarlyDelayTap[c][1]; - State->EarlyDelayCoeff[c][0] = State->EarlyDelayCoeff[c][1]; - State->Early.VecAp.Offset[c][0] = State->Early.VecAp.Offset[c][1]; - State->Early.Offset[c][0] = State->Early.Offset[c][1]; - State->Early.Coeff[c][0] = State->Early.Coeff[c][1]; - State->LateDelayTap[c][0] = State->LateDelayTap[c][1]; - State->Late.VecAp.Offset[c][0] = State->Late.VecAp.Offset[c][1]; - State->Late.Offset[c][0] = State->Late.Offset[c][1]; - State->Late.T60[c].MidGain[0] = State->Late.T60[c].MidGain[1]; + State->mEarlyDelayTap[c][0] = State->mEarlyDelayTap[c][1]; + State->mEarlyDelayCoeff[c][0] = State->mEarlyDelayCoeff[c][1]; + State->mEarly.VecAp.Offset[c][0] = State->mEarly.VecAp.Offset[c][1]; + State->mEarly.Offset[c][0] = State->mEarly.Offset[c][1]; + State->mEarly.Coeff[c][0] = State->mEarly.Coeff[c][1]; + State->mLateDelayTap[c][0] = State->mLateDelayTap[c][1]; + State->mLate.VecAp.Offset[c][0] = State->mLate.VecAp.Offset[c][1]; + State->mLate.Offset[c][0] = State->mLate.Offset[c][1]; + State->mLate.T60[c].MidGain[0] = State->mLate.T60[c].MidGain[1]; } - State->Late.DensityGain[0] = State->Late.DensityGain[1]; - State->MaxUpdate[0] = State->MaxUpdate[1]; + State->mLate.DensityGain[0] = State->mLate.DensityGain[1]; + State->mMaxUpdate[0] = State->mMaxUpdate[1]; } } else @@ -1562,7 +1562,7 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const EarlyReflection_Unfaded(State, offset, todo, samples); for(c = 0;c < NUM_LINES;c++) MixSamples(samples[c], NumChannels, SamplesOut, - State->Early.CurrentGain[c], State->Early.PanGain[c], + State->mEarly.CurrentGain[c], State->mEarly.PanGain[c], SamplesToDo-base, base, todo ); @@ -1570,7 +1570,7 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const LateReverb_Unfaded(State, offset, todo, samples); for(c = 0;c < NUM_LINES;c++) MixSamples(samples[c], NumChannels, SamplesOut, - State->Late.CurrentGain[c], State->Late.PanGain[c], + State->mLate.CurrentGain[c], State->mLate.PanGain[c], SamplesToDo-base, base, todo ); } @@ -1580,8 +1580,8 @@ static ALvoid ReverbState_process(ReverbState *State, ALsizei SamplesToDo, const base += todo; } - State->Offset = offset; - State->FadeCount = fadeCount; + State->mOffset = offset; + State->mFadeCount = fadeCount; } |