diff options
| author | Chris Robinson <[email protected]> | 2009-11-22 15:37:32 -0800 |
|---|---|---|
| committer | Chris Robinson <[email protected]> | 2009-11-22 15:37:32 -0800 |
| commit | c5ee0106406cbf46f49c48a6355246a97505d640 (patch) | |
| tree | ec80b9e42754315d90992f9587834e7f4c2468c5 /Alc/alcReverb.c | |
| parent | 1b18b4a0ee6ba20325e68ccc7e07f4db08413d23 (diff) | |
The echo should not take energy-attenuated input
Diffstat (limited to 'Alc/alcReverb.c')
| -rw-r--r-- | Alc/alcReverb.c | 25 |
1 files changed, 12 insertions, 13 deletions
diff --git a/Alc/alcReverb.c b/Alc/alcReverb.c index 631d1b94..94e67aff 100644 --- a/Alc/alcReverb.c +++ b/Alc/alcReverb.c @@ -574,17 +574,16 @@ static ALvoid UpdateLateLines(ALfloat reverbGain, ALfloat lateGain, ALfloat xMix // coefficients. static ALvoid UpdateEchoLine(ALfloat reverbGain, ALfloat lateGain, ALfloat echoTime, ALfloat decayTime, ALfloat diffusion, ALfloat echoDepth, ALfloat hfRatio, ALfloat cw, ALuint frequency, ALverbState *State) { - // Calculate the energy-based attenuation coefficient for the echo delay - // line. - State->Echo.DensityGain = CalcDensityGain(CalcDecayCoeff(echoTime, - decayTime)); - // Update the offset and coefficient for the echo delay line. State->Echo.Offset = (ALuint)(echoTime * frequency); // Calculate the decay coefficient for the echo line. State->Echo.Coeff = CalcDecayCoeff(echoTime, decayTime); + // Calculate the energy-based attenuation coefficient for the echo delay + // line. + State->Echo.DensityGain = CalcDensityGain(State->Echo.Coeff); + // Calculate the echo all-pass feed coefficient. State->Echo.ApFeedCoeff = 0.5f * pow(diffusion, 2.0f); @@ -914,7 +913,7 @@ static __inline ALvoid EAXEcho(ALverbState *State, ALfloat in, ALfloat *late) // four-channel output. static __inline ALvoid VerbPass(ALverbState *State, ALfloat in, ALfloat *early, ALfloat *late) { - ALfloat taps[4]; + ALfloat feed, taps[4]; // Low-pass filter the incoming sample. in = lpFilter2P(&State->LpFilter, 0, in); @@ -929,11 +928,11 @@ static __inline ALvoid VerbPass(ALverbState *State, ALfloat in, ALfloat *early, // Feed the decorrelator from the energy-attenuated output of the second // delay tap. in = DelayLineOut(&State->Delay, State->Offset - State->DelayTap[1]); - in *= State->Late.DensityGain; - DelayLineIn(&State->Decorrelator, State->Offset, in); + feed = in * State->Late.DensityGain; + DelayLineIn(&State->Decorrelator, State->Offset, feed); // Calculate the late reverb from the decorrelator taps. - taps[0] = in; + taps[0] = feed; taps[1] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[0]); taps[2] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[1]); taps[3] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[2]); @@ -947,7 +946,7 @@ static __inline ALvoid VerbPass(ALverbState *State, ALfloat in, ALfloat *early, // channel output. static __inline ALvoid EAXVerbPass(ALverbState *State, ALfloat in, ALfloat *early, ALfloat *late) { - ALfloat taps[4]; + ALfloat feed, taps[4]; // Low-pass filter the incoming sample. in = lpFilter2P(&State->LpFilter, 0, in); @@ -965,11 +964,11 @@ static __inline ALvoid EAXVerbPass(ALverbState *State, ALfloat in, ALfloat *earl // Feed the decorrelator from the energy-attenuated output of the second // delay tap. in = DelayLineOut(&State->Delay, State->Offset - State->DelayTap[1]); - in *= State->Late.DensityGain; - DelayLineIn(&State->Decorrelator, State->Offset, in); + feed = in * State->Late.DensityGain; + DelayLineIn(&State->Decorrelator, State->Offset, feed); // Calculate the late reverb from the decorrelator taps. - taps[0] = in; + taps[0] = feed; taps[1] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[0]); taps[2] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[1]); taps[3] = DelayLineOut(&State->Decorrelator, State->Offset - State->DecoTap[2]); |