public final void writeDouble(double[] v, int startPos, int len) throws IOException { for (int i = startPos; i < startPos + len; i++) writeDouble(v[i]); }
public final void writeDouble(double[] v, int startPos, int len) throws IOException { for (int i = startPos; i < startPos + len; i++) writeDouble(v[i]); }
public final void writeDoubleEndian(double v) throws IOException { writeDouble(v); }
public final void writeDoubleEndian(double v) throws IOException { writeDouble(v); }
public final void writeDouble(double[] v) throws IOException { writeDouble(v, 0, v.length); }
public final void writeDouble(double[] v) throws IOException { writeDouble(v, 0, v.length); }
public void writePitchHeader(MaryRandomAccessFile ler) throws IOException { ler.writeDouble(windowSizeInSeconds); ler.writeDouble(skipSizeInSeconds); ler.writeInt(fs); ler.writeInt(numfrm); ler.writeDouble(voicingThreshold); ler.writeDouble(minimumF0); ler.writeDouble(maximumF0); ler.writeBoolean(isDoublingCheck); ler.writeBoolean(isHalvingCheck); ler.writeDouble(centerClippingRatio); ler.writeDouble(cutOff1); ler.writeDouble(cutOff2); }
public void writePitchHeader(MaryRandomAccessFile ler) throws IOException { ler.writeDouble(windowSizeInSeconds); ler.writeDouble(skipSizeInSeconds); ler.writeInt(fs); ler.writeInt(numfrm); ler.writeDouble(voicingThreshold); ler.writeDouble(minimumF0); ler.writeDouble(maximumF0); ler.writeBoolean(isDoublingCheck); ler.writeBoolean(isHalvingCheck); ler.writeDouble(centerClippingRatio); ler.writeDouble(cutOff1); ler.writeDouble(cutOff2); }
public void write(MaryRandomAccessFile ler) throws IOException { try { ler.writeInt(samplingRate); ler.writeDouble(windowSizeInSeconds); ler.writeDouble(skipSizeInSeconds); ler.writeInt(totalFrames); } catch (IOException e) { throw e; } }
public void write(MaryRandomAccessFile ler) throws IOException { try { ler.writeInt(samplingRate); ler.writeDouble(windowSizeInSeconds); ler.writeDouble(skipSizeInSeconds); ler.writeInt(totalFrames); } catch (IOException e) { throw e; } }
public void writeSingle(double[] x, int len) { try { stream.writeInt(Math.min(x.length, len)); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } try { stream.writeDouble(x, 0, Math.min(x.length, len)); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } incrementTotalEntries(); }
public void writeSingle(double[] x, int len) { try { stream.writeInt(Math.min(x.length, len)); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } try { stream.writeDouble(x, 0, Math.min(x.length, len)); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } incrementTotalEntries(); }
ler.writeDouble(mean); } catch (IOException e) { ler.writeDouble(standardDeviation); } catch (IOException e) { ler.writeDouble(range); } catch (IOException e) { ler.writeDouble(intercept); } catch (IOException e) { ler.writeDouble(slope); } catch (IOException e) {
ler.writeDouble(mean); } catch (IOException e) { ler.writeDouble(standardDeviation); } catch (IOException e) { ler.writeDouble(range); } catch (IOException e) { ler.writeDouble(intercept); } catch (IOException e) { ler.writeDouble(slope); } catch (IOException e) {
public static void WriteEnergyFile(EnergyContourRms en, String energyFile) throws IOException { if (en.contour != null) { en.header.totalFrames = en.contour.length; MaryRandomAccessFile ler = null; try { ler = new MaryRandomAccessFile(energyFile, "rw"); } catch (FileNotFoundException e) { throw new IOException("File not found: " + energyFile); } en.header.write(ler); ler.writeDouble(en.contour); ler.close(); } }
public static void WriteEnergyFile(EnergyContourRms en, String energyFile) throws IOException { if (en.contour != null) { en.header.totalFrames = en.contour.length; MaryRandomAccessFile ler = null; try { ler = new MaryRandomAccessFile(energyFile, "rw"); } catch (FileNotFoundException e) { throw new IOException("File not found: " + energyFile); } en.header.write(ler); ler.writeDouble(en.contour); ler.close(); } }
ler.writeDouble(lsfs); } catch (IOException e) { ler.writeDouble(mfccs); } catch (IOException e) { ler.writeDouble(f0); } catch (IOException e) { ler.writeDouble(duration); } catch (IOException e) { ler.writeDouble(energy); } catch (IOException e) {
ler.writeDouble(lsfs); } catch (IOException e) { ler.writeDouble(mfccs); } catch (IOException e) { ler.writeDouble(f0); } catch (IOException e) { ler.writeDouble(duration); } catch (IOException e) { ler.writeDouble(energy); } catch (IOException e) {
stream.writeDouble(kmeansMinClusterChangePercent); } catch (IOException e) { stream.writeDouble(tinyLogLikelihoodChangePercent); } catch (IOException e) { stream.writeDouble(minCovarianceAllowed); } catch (IOException e) {
stream.writeDouble(kmeansMinClusterChangePercent); } catch (IOException e) { stream.writeDouble(tinyLogLikelihoodChangePercent); } catch (IOException e) { stream.writeDouble(minCovarianceAllowed); } catch (IOException e) {