public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
double[] outPcm = null;
if (mProcessed == 0)
{
outPcm = new double[inPcm.Length - INSPECT_BITS + 1];
}
else
{
outPcm = new double[inPcm.Length];
}
int writePos = 0;
for (int readPos = 0; readPos < inPcm.Length; ++readPos)
{
double y = 0;
if (!Process(inPcm[readPos], out y))
{
// まだ出力から値が出てこない。
}
else
{
outPcm[writePos++] = y;
}
}
return(new WWUtil.LargeArray <double>(outPcm));
}
/*
* Transfer function H(z):
* (r・e^{jθ} - z^{-1})(r・e^{-jθ} - z^{-1})
* H(z) = ------------------------------------------------
* (1 - r・e^{jθ}・z^{-1})(1 - r・e^{-jθ}・z^{-1})
*
* r^2 - 2r・cos(θ)z^{-1} + z^{-2}
* = -------------------------------
* 1 - 2r・cos(θ)z^{-1} + r^2・z^{-2}
*
* Difference equation:
* Input: x[n]
* Output: y[n]
*
* y[n] = r^2 * x[n] - 2rcosθ * x[n-1] + x[n-2] + 2rcosθ * y[n-1] - r^2 * y[n-2]
*/
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
double θ = T * Math.PI / 180.0;
for (int i = 0; i < inPcm.Length; ++i)
{
double x = inPcm[i];
// direct form implementation of the difference equation
double y = R * R * x - 2 * R * Math.Cos(θ) * mLastX[0] + mLastX[1];
y += 2 * R * Math.Cos(θ) * mLastY[0] - R * R * mLastY[1];
outPcm[i] = y;
mLastX[1] = mLastX[0];
mLastX[0] = x;
mLastY[1] = mLastY[0];
mLastY[0] = y;
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var result = new double[inPcm.Length - (mFilterCoeffs.Length - mSampleDelay.Count - 1)];
int pos = 0;
foreach (double v in inPcm)
{
mSampleDelay.Enqueue(v);
if (mFilterCoeffs.Length <= mSampleDelay.Count)
{
double sum = 0.0;
int offs = 0;
foreach (double d in mSampleDelay)
{
sum += mFilterCoeffs[offs] * d;
++offs;
}
result[pos] = sum;
++pos;
mSampleDelay.Dequeue();
}
}
return(new WWUtil.LargeArray <double>(result));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
for (int i = 0; i < outPcm.Length; ++i)
{
double sampleD = inPcm[i];
int sampleI24;
if (1.0 <= sampleD)
{
sampleI24 = 8388607;
}
else if (sampleD < -1.0)
{
sampleI24 = -8388608;
}
else
{
sampleI24 = (int)(8388608 * sampleD);
}
sampleI24 = mNoiseShaper.Filter24(sampleI24);
outPcm[i] = (double)sampleI24 * (1.0 / 8388608);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
double[] outPcm;
int i = 0;
if (mFirst)
{
outPcm = new double[(inPcm.Length - 1) * Factor];
mLastOriginalSampleValue = inPcm[0];
mFirst = false;
i = 1;
}
else
{
outPcm = new double[inPcm.Length * Factor];
// i==0
}
int pos = 0;
for (; i < inPcm.Length; ++i)
{
for (int r = 0; r < Factor; ++r)
{
double ratio = (r + 1.0) / Factor;
outPcm[pos] = inPcm[i] * ratio + mLastOriginalSampleValue * (1.0 - ratio);
++pos;
}
mLastOriginalSampleValue = inPcm[i];
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
for (int i = 0; i < outPcm.Length; ++i)
{
double sampleD = 0.0;
for (int order = 0; order < 5; ++order)
{
sampleD += mC[order] * mS[order];
}
if (1 == TargetBitsPerSample)
{
if (0.0 <= sampleD)
{
outPcm[i] = 8388607.0 / 8388608.0;
}
else
{
outPcm[i] = -1.0;
}
}
else
{
int sampleI = 0;
if (1.0f <= sampleD)
{
sampleI = Int32.MaxValue;
}
else if (sampleD < -1.0f)
{
sampleI = Int32.MinValue;
}
else
{
sampleI = (int)(sampleD * -1.0 * Int32.MinValue);
}
sampleI = (int)((sampleI) & mMask);
outPcm[i] = sampleI * (-1.0 / Int32.MinValue);
}
mS[4] += mS[3];
mS[3] += mS[2] - mF[1] * mS[4];
mS[2] += mS[1];
mS[1] += mS[0] - mF[0] * mS[2];
mS[0] += (inPcm[i] - outPcm[i]);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
for (int i = 0; i < outPcm.Length; ++i)
{
outPcm[i] = inPcm[i] * Amplitude;
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
for (int i = 0; i < outPcm.Length; ++i)
{
outPcm[i] = inPcm[i] + mGNG.NextFloat() * NoiseLevelScale();
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
if (inPcmLA.LongLength == 0)
{
return(new WWUtil.LargeArray <double>(0));
}
var inPcm = inPcmLA.ToArray();
var pcmF = mFFT.ForwardFft(inPcm);
double scaleLsb = Math.Pow(10, LsbScalingDb / 20.0);
double maxMagnitude = FFT_LENGTH / 2;
for (int i = 0; i < pcmF.Length; ++i)
{
/* -144 dBより小さい: そのまま
* -144 dB: scaleLsb倍
* -72 dB: scaleLsb/2倍
* 0 dB: 1倍
* になるようなスケーリングをする。
* 出力データは音量が増えるので、後段にノーマライズ処理を追加すると良い。
*/
// magnitudeは0.0~1.0の範囲の値。
double magnitude = pcmF[i].Magnitude() / maxMagnitude;
double db = float.MinValue;
if (float.Epsilon < magnitude)
{
db = 20.0 * Math.Log10(magnitude);
}
double scale = 1.0;
if (db < LSB_DECIBEL)
{
scale = 1.0;
}
else if (0 <= db)
{
scale = 1.0;
}
else
{
scale = 1.0 + db * (scaleLsb - 1) / LSB_DECIBEL;
}
pcmF[i] = WWComplex.Mul(pcmF[i], scale);
}
return(new WWUtil.LargeArray <double>(mFFT.InverseFft(pcmF)));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
System.Diagnostics.Debug.Assert(inPcmLA.LongLength == NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length * Factor];
for (int i = 0; i < inPcm.Length; ++i)
{
outPcm[i * Factor] = inPcm[i];
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
var dict = new Dictionary <int, int>();
for (int i = 0; i < outPcm.Length; ++i)
{
double sampleD = inPcm[i];
int sampleI24;
if (1.0 <= sampleD)
{
sampleI24 = 8388607;
}
else if (sampleD < -1.0)
{
sampleI24 = -8388608;
}
else
{
sampleI24 = (int)(8388608 * sampleD);
}
sampleI24 = mNoiseShaper1bit.Filter24(sampleI24);
if (dict.ContainsKey(sampleI24))
{
++dict[sampleI24];
}
else
{
dict.Add(sampleI24, 1);
}
outPcm[i] = (double)sampleI24 * (1.0 / 8388608);
}
foreach (var n in dict)
{
Console.WriteLine("{0} {1}", n.Key, n.Value);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
// 32bit integerにサンプル値を左寄せで詰める。
// maskで下位ビットを0にすることで量子化ビット数を減らす。
uint mask = 0xffffff00U << (24 - TargetBitsPerSample);
for (long i = 0; i < outPcm.Length; ++i)
{
double sampleD = inPcm[i];
int sampleI24;
if (1.0 <= sampleD)
{
sampleI24 = 8388607;
}
else if (sampleD < -1.0)
{
sampleI24 = -8388608;
}
else
{
sampleI24 = (int)(8388608 * sampleD);
}
int sampleI32 = sampleI24 << 8;
if (TargetBitsPerSample == 1)
{
sampleI32 = (0 <= sampleI32) ? Int32.MaxValue : Int32.MinValue;
}
else
{
sampleI32 = (int)(((int)sampleI32) & mask);
}
sampleI24 = sampleI32 >> 8;
outPcm[i] = (double)sampleI24 * (1.0 / 8388608);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
int i = 0;
double[] outPcm;
if (mDelay.Count == 0)
{
outPcm = new double[(inPcm.Length - 3) * Factor];
mDelay.Add(0);
for (i = 0; i < 3; ++i)
{
mDelay.Add(inPcm[i]);
}
// i==3
}
else
{
outPcm = new double[inPcm.Length * Factor];
// i==0
}
int pos = 0;
for (; i < inPcm.Length; ++i)
{
// p0 and p1: 2つの隣接する入力サンプル値
// m0 and m1: p0地点、p1地点の傾き
double p0 = mDelay[1];
double p1 = mDelay[2];
double m0 = mDelay[2] - mDelay[0];
double m1 = mDelay[3] - mDelay[1];
for (int r = 0; r < Factor; ++r)
{
// tは補間時刻。0 < t ≦ 1まで変化する
double t = (r + 1.0) / Factor;
outPcm[pos] = H00(t) * p0 + H10(t) * m0 + H01(t) * p1 + H11(t) * m1;
++pos;
}
mDelay.RemoveAt(0);
mDelay.Add(inPcm[i]);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
System.Diagnostics.Debug.Assert(inPcm.Length == mResamplePosArray.Length);
System.Diagnostics.Debug.Assert(inPcm.Length == mFractionArray.Length);
double [] outPcm = new double[inPcm.Length];
long processed = 0;
Parallel.For(0, inPcm.Length, toPos => {
int fromPos = mResamplePosArray[toPos];
double fraction = mFractionArray[toPos];
double sinFraction = Math.Sin(-Math.PI * mFractionArray[toPos]);
double v = 0.0;
for (int convOffs = -ConvolutionLengthMinus1 / 2; convOffs <= ConvolutionLengthMinus1 / 2; ++convOffs)
{
long pos = convOffs + fromPos;
if (0 <= pos && pos < inPcm.LongLength)
{
double x = Math.PI * (convOffs - fraction);
double sinX = sinFraction;
if (0 != (convOffs & 1))
{
sinX *= -1.0;
}
double sinc = SincD(sinX, x);
v += inPcm[pos] * sinc;
}
}
outPcm[toPos] = v;
// report progress.
Interlocked.Increment(ref processed);
if (0xffff == (processed & 0xffff))
{
ProgressReport((double)processed / inPcm.Length);
}
});
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray<double> FilterDo(WWUtil.LargeArray<double> inPcmLA) {
System.Diagnostics.Debug.Assert(inPcmLA.LongLength == NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
int inputSamples = (int)((UpsampledWindowLen + 1) / Factor + PROCESS_SLICE);
if (mFirst) {
var silence = new double[(UpsampledWindowLen + 1) / Factor / 2];
mInputDelay.AddRange(silence);
}
mInputDelay.AddRange(inPcm);
if (inputSamples < mInputDelay.Count) {
int count = mInputDelay.Count - inputSamples;
mInputDelay.RemoveRange(0, count);
}
var fromPcm = mInputDelay.ToArray();
var toPcm = new double[PROCESS_SLICE * Factor];
#if false
for (int i=0; i<PROCESS_SLICE; ++i) {
#else
Parallel.For(0, PROCESS_SLICE, i => {
#endif
for (int f = 0; f < Factor; ++f) {
double sampleValue = 0;
for (long offs = 0; offs + Factor - f < mCoeffs.LongLength; offs += Factor) {
double input = mInputDelay[(int)(offs / Factor + i)];
if (input != 0.0) {
sampleValue += mCoeffs.At(offs + Factor - f) * input;
}
}
toPcm[i * Factor + f] = sampleValue;
}
#if false
}
#else
});
#endif
mFirst = false;
return new WWUtil.LargeArray<double>(toPcm);
}
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.LongLength * Factor];
long pos = 0;
for (long i = 0; i < inPcm.LongLength; ++i)
{
for (int r = 0; r < Factor; ++r)
{
outPcm[pos] = inPcm[i];
++pos;
}
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
System.Diagnostics.Debug.Assert(inPcm.Length == NumOfSamplesNeeded());
var outPcm = new double[inPcm.Length / Factor];
long writePos = 0;
for (long i = PickSampleIndex; i < inPcm.Length; i += Factor)
{
outPcm[writePos] = inPcm[i];
++writePos;
}
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var pcmF = mFFTfwd.Process(inPcm);
if (pcmF.Length == 0)
{
return(new WWUtil.LargeArray <double>(0));
}
int idx20Hz = (int)(20.0 * mFftLength / mPcmFormat.SampleRate);
int idx40Hz = (int)(40.0 * mFftLength / mPcmFormat.SampleRate);
for (int i = 0; i < idx40Hz - idx20Hz; ++i)
{
// 正の周波数
{
var v = pcmF[i + idx40Hz];
v = WWComplex.Mul(v, Gain);
pcmF[i + idx20Hz] = WWComplex.Add(pcmF[i + idx20Hz], v);
}
// 負の周波数
{
var v = pcmF[mFftLength - (i + idx40Hz)];
v = WWComplex.Mul(v, Gain);
pcmF[mFftLength - (i + idx20Hz)] = WWComplex.Add(pcmF[mFftLength - (i + idx20Hz)], v);
}
}
var r = new WWUtil.LargeArray <double>(mFFTinv.Process(pcmF));
// 進捗表示。
mProcessedSamples += inPcm.Length;
ProgressReport((double)mProcessedSamples / mTotalSamples);
return(r);
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
System.Diagnostics.Debug.Assert(inPcmLA.LongLength == NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
int inputSamples = (WindowLength + 1) + PROCESS_SLICE * Factor;
if (mFirst)
{
var silence = new double[(WindowLength + 1) / 2];
mInputDelay.AddRange(silence);
}
mInputDelay.AddRange(inPcm);
if (inputSamples < mInputDelay.Count)
{
int count = mInputDelay.Count - inputSamples;
mInputDelay.RemoveRange(0, count);
}
var fromPcm = mInputDelay.ToArray();
var toPcm = new double[PROCESS_SLICE];
Parallel.For(0, PROCESS_SLICE, i => {
double sampleValue = 0;
for (int offs = 0; offs < mCoeffs.Length; ++offs)
{
double input = mInputDelay[offs + i * Factor];
if (input != 0.0)
{
sampleValue += mCoeffs[offs] * input;
}
}
toPcm[i] = sampleValue;
});
mFirst = false;
return(new WWUtil.LargeArray <double>(toPcm));
}
/*
* Transfer function H(z):
* -a + z^{-1}
* H(z) = ------------------
* 1 - a * z^{-1}
*
* for a : real value
*
* Difference equation:
* Input: x[n]
* Output: y[n]
*
* y[n] = -a * x[n] + x[n-1] + a * y[n-1]
*/
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
var outPcm = new double[inPcm.Length];
for (int i = 0; i < inPcm.Length; ++i)
{
double x = inPcm[i];
// direct form implementation of the difference equation
double y = -A * x + mLastX;
y += A * mLastY;
outPcm[i] = y;
mLastX = x;
mLastY = y;
//Console.WriteLine("A={0:g} n={1:g} y={2:g}", A, i, y);
}
return(new WWUtil.LargeArray <double>(outPcm));
}
/// <summary>
/// Understanding digital signal processing 3rd ed. pp.558 - 562
/// int型のデータをQ次、ディレイDのCICで処理するとき、
/// 中間データは32(intのビット数) + Q * log_2(D)ビットのデータ型である必要がある。
/// </summary>
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
System.Diagnostics.Debug.Assert(inPcmLA.LongLength == NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
int gain = (int)Math.Pow(Delay, Order);
var result = new double[inPcm.Length];
for (int i = 0; i < inPcm.Length; ++i)
{
double vD = inPcm[i];
long v = PCMDoubleToInt(vD);
for (int j = 0; j < Order; ++j)
{
v += mIntegratorZ[j];
mIntegratorZ[j] = v;
}
for (int j = 0; j < Order; ++j)
{
mCombQueue[j].Enqueue(v);
if (Delay < mCombQueue[j].Count)
{
v -= mCombQueue[j].Dequeue();
}
}
v /= gain;
result[i] = PCMIntToDouble((int)v);
}
return(new WWUtil.LargeArray <double>(result));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
System.Diagnostics.Debug.Assert(inPcmLA.LongLength == NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
// inPcmTをFFTしてinPcmFを得る。
// inPcmFを0で水増ししたデータoutPcmFを作って逆FFTしoutPcmを得る。
var inPcmF = mFFT.ForwardFft(inPcm);
var outPcmF = new WWComplex[UpsampleFftLength];
for (int i = 0; i < outPcmF.Length; ++i)
{
if (i <= FftLength / 2)
{
outPcmF[i] = inPcmF[i];
}
else if (UpsampleFftLength - FftLength / 2 <= i)
{
int pos = i + FftLength - UpsampleFftLength;
outPcmF[i] = inPcmF[pos];
}
else
{
outPcmF[i] = WWComplex.Zero();
}
}
inPcmF = null;
var outPcm = mFFT.InverseFft(outPcmF);
outPcmF = null;
return(new WWUtil.LargeArray <double>(outPcm));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
System.Diagnostics.Debug.Assert(inPcmLA.LongLength <= NumOfSamplesNeeded());
var inPcm = inPcmLA.ToArray();
var fft = new WWRadix2Fft(FFT_LEN);
// Overlap and add continuous FFT
var inTime = new WWComplex[FFT_LEN];
for (int i = 0; i < inPcm.Length; ++i)
{
inTime[i] = new WWComplex(inPcm[i], 0);
}
// FFTでinTimeをinFreqに変換
var inFreq = fft.ForwardFft(inTime);
inTime = null;
// FFT後、フィルターHの周波数ドメインデータを掛ける
var mulFreq = WWComplex.Mul(inFreq, mFilterFreq);
inFreq = null;
// inFreqをIFFTしてoutTimeに変換
var outTime = fft.InverseFft(mulFreq);
mulFreq = null;
double [] outReal;
if (mFirstFilterDo)
{
// 最初のFilterDo()のとき、フィルタの遅延サンプル数だけ先頭サンプルを削除する。
outReal = new double[NumOfSamplesNeeded() - FILTER_DELAY];
for (int i = 0; i < outReal.Length; ++i)
{
outReal[i] = outTime[i + FILTER_DELAY].real;
}
mFirstFilterDo = false;
}
else
{
outReal = new double[NumOfSamplesNeeded()];
for (int i = 0; i < outReal.Length; ++i)
{
outReal[i] = outTime[i].real;
}
}
// 前回のIFFT結果の最後のFILTER_LENGTH-1サンプルを先頭に加算する
if (null != mIfftAddBuffer)
{
for (int i = 0; i < mIfftAddBuffer.Length; ++i)
{
outReal[i] += mIfftAddBuffer[i];
}
}
// 今回のIFFT結果の最後のFILTER_LENGTH-1サンプルをmIfftAddBufferとして保存する
mIfftAddBuffer = new double[FILTER_LENP1];
for (int i = 0; i < mIfftAddBuffer.Length; ++i)
{
mIfftAddBuffer[i] = outTime[outTime.Length - mIfftAddBuffer.Length + i].real;
}
outTime = null;
return(new WWUtil.LargeArray <double>(outReal));
}
public override WWUtil.LargeArray <double> FilterDo(WWUtil.LargeArray <double> inPcmLA)
{
var inPcm = inPcmLA.ToArray();
double scaleLsb = Math.Pow(10, LsbScalingDb / 20.0);
double maxScaling = 0.0;
for (int b = 0; b < 15; ++b)
{
double scale = 1.0 * b / 14.0 + scaleLsb * (14 - b) / 14.0;
maxScaling += scale * (1 << b);
}
var outPcm = new double[inPcm.Length];
for (int i = 0; i < outPcm.Length; ++i)
{
double d = inPcm[i] * (Int16.MaxValue + 1);
bool plus = true;
int v;
if (Int16.MaxValue < d)
{
v = Int16.MaxValue;
}
else if (d < Int16.MinValue + 1)
{
v = Int16.MinValue + 1;
}
else
{
v = (int)d;
}
if (v < 0)
{
v = -v;
plus = false;
}
double result = 0.0;
for (int b = 0; b < 15; ++b)
{
if ((v & (1 << b)) != 0)
{
double scale = 1.0 * b / 14.0 + scaleLsb * (14 - b) / 14.0;
result += (1 << b) * scale;
}
}
if (!plus)
{
result = -result;
}
result /= maxScaling;
outPcm[i] = result;
}
return(new WWUtil.LargeArray <double>(outPcm));
}
