* /param long numsamples number of samples to be processed
* /param int skip number of channels in the audio stream
*****************************************************************************/
-void revmodel::processreplace(float *inputL, float *outputL, long numsamples, int skip)
+void revmodel::processreplace(float *inputL, float *outputL, long /* numsamples */, int skip)
{
float outL,outR,input;
float inputR;
outputL[1] = (outR*wet1 + outL*wet2 + inputR*dry);
}
-void revmodel::processmix(float *inputL, float *outputL, long numsamples, int skip)
+void revmodel::processmix(float *inputL, float *outputL, long /* numsamples */, int skip)
{
float outL,outR,input;
float inputR;
- int i;
outL = outR = 0;
if (skip > 1)
input = (inputL[0] + inputR) * gain;
// Accumulate comb filters in parallel
- for(i=0; i<numcombs; i++)
+ for(int i=0; i<numcombs; i++)
{
outL += combL[i].process(input);
outR += combR[i].process(input);
}
// Feed through allpasses in series
- for(i=0; i<numallpasses; i++)
+ for(int i=0; i<numallpasses; i++)
{
outL = allpassL[i].process(outL);
outR = allpassR[i].process(outR);
{
// Recalculate internal values after parameter change
- int i;
-
wet1 = wet*(width/2 + 0.5f);
wet2 = wet*((1-width)/2);
gain = fixedgain;
}
- for(i=0; i<numcombs; i++)
+ for(int i=0; i<numcombs; i++)
{
combL[i].setfeedback(roomsize1);
combR[i].setfeedback(roomsize1);
}
- for(i=0; i<numcombs; i++)
+ for(int i=0; i<numcombs; i++)
{
combL[i].setdamp(damp1);
combR[i].setdamp(damp1);