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package com.sun.media.sound;

A simple look-ahead volume limiter with very fast attack and fast release. This filter is used for preventing clipping.
Author:Karl Helgason
/** * A simple look-ahead volume limiter with very fast attack and fast release. * This filter is used for preventing clipping. * * @author Karl Helgason */
public final class SoftLimiter implements SoftAudioProcessor { float lastmax = 0; float gain = 1; float[] temp_bufferL; float[] temp_bufferR; boolean mix = false; SoftAudioBuffer bufferL; SoftAudioBuffer bufferR; SoftAudioBuffer bufferLout; SoftAudioBuffer bufferRout; float controlrate; public void init(float samplerate, float controlrate) { this.controlrate = controlrate; } public void setInput(int pin, SoftAudioBuffer input) { if (pin == 0) bufferL = input; if (pin == 1) bufferR = input; } public void setOutput(int pin, SoftAudioBuffer output) { if (pin == 0) bufferLout = output; if (pin == 1) bufferRout = output; } public void setMixMode(boolean mix) { this.mix = mix; } public void globalParameterControlChange(int[] slothpath, long param, long value) { } double silentcounter = 0; public void processAudio() { if (this.bufferL.isSilent() && (this.bufferR == null || this.bufferR.isSilent())) { silentcounter += 1 / controlrate; if (silentcounter > 60) { if (!mix) { bufferLout.clear(); if(bufferRout != null) bufferRout.clear(); } return; } } else silentcounter = 0; float[] bufferL = this.bufferL.array(); float[] bufferR = this.bufferR == null ? null : this.bufferR.array(); float[] bufferLout = this.bufferLout.array(); float[] bufferRout = this.bufferRout == null ? null : this.bufferRout.array(); if (temp_bufferL == null || temp_bufferL.length < bufferL.length) temp_bufferL = new float[bufferL.length]; if (bufferR != null) if (temp_bufferR == null || temp_bufferR.length < bufferR.length) temp_bufferR = new float[bufferR.length]; float max = 0; int len = bufferL.length; if (bufferR == null) { for (int i = 0; i < len; i++) { if (bufferL[i] > max) max = bufferL[i]; if (-bufferL[i] > max) max = -bufferL[i]; } } else { for (int i = 0; i < len; i++) { if (bufferL[i] > max) max = bufferL[i]; if (bufferR[i] > max) max = bufferR[i]; if (-bufferL[i] > max) max = -bufferL[i]; if (-bufferR[i] > max) max = -bufferR[i]; } } float lmax = lastmax; lastmax = max; if (lmax > max) max = lmax; float newgain = 1; if (max > 0.99f) newgain = 0.99f / max; else newgain = 1; if (newgain > gain) newgain = (newgain + gain * 9) / 10f; float gaindelta = (newgain - gain) / len; if (mix) { if (bufferR == null) { for (int i = 0; i < len; i++) { gain += gaindelta; float bL = bufferL[i]; float tL = temp_bufferL[i]; temp_bufferL[i] = bL; bufferLout[i] += tL * gain; } } else { for (int i = 0; i < len; i++) { gain += gaindelta; float bL = bufferL[i]; float bR = bufferR[i]; float tL = temp_bufferL[i]; float tR = temp_bufferR[i]; temp_bufferL[i] = bL; temp_bufferR[i] = bR; bufferLout[i] += tL * gain; bufferRout[i] += tR * gain; } } } else { if (bufferR == null) { for (int i = 0; i < len; i++) { gain += gaindelta; float bL = bufferL[i]; float tL = temp_bufferL[i]; temp_bufferL[i] = bL; bufferLout[i] = tL * gain; } } else { for (int i = 0; i < len; i++) { gain += gaindelta; float bL = bufferL[i]; float bR = bufferR[i]; float tL = temp_bufferL[i]; float tR = temp_bufferR[i]; temp_bufferL[i] = bL; temp_bufferR[i] = bR; bufferLout[i] = tL * gain; bufferRout[i] = tR * gain; } } } gain = newgain; } public void processControlLogic() { } }