/** * Get a boolean property from the underlying properties. * * @param property * the property requested * @return the boolean property value if found, false otherwise. */ public boolean getBoolean(String property) { return getBoolean(property, false); }
/** * Get a boolean property from the underlying properties. * * @param property * the property requested * @return the boolean property value if found, false otherwise. */ public boolean getBoolean(String property) { return getBoolean(property, false); }
alpha = p.getDouble(prefix + ".alpha", alpha); stage = p.getInteger(prefix + ".gamma", stage); useLogGain = p.getBoolean(prefix + ".logGain", useLogGain); beta = p.getDouble(prefix + ".beta", beta); pdfMagStream = p.getStream(prefix + ".Fma"); /* Model MAG */ useAcousticModels = p.getBoolean(prefix + ".useAcousticModels"); /* useMixExc = p.getBoolean(prefix + ".useMixExc"); /* Use Mixed excitation */ useFourierMag = p.getBoolean(prefix + ".useFourierMag"); /* Use Fourier magnitudes for pulse generation */ useGV = p.getBoolean(prefix + ".useGV"); /* Use Global Variance in parameter generation */ if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV"); /* Use context-dependent GV, (gv without sil) */ String gvMethod = p.getProperty(prefix + ".gvMethod"); /* GV method: gradient or derivative (default gradient) */
alpha = p.getDouble(prefix + ".alpha", alpha); stage = p.getInteger(prefix + ".gamma", stage); useLogGain = p.getBoolean(prefix + ".logGain", useLogGain); beta = p.getDouble(prefix + ".beta", beta); pdfMagStream = p.getStream(prefix + ".Fma"); /* Model MAG */ useAcousticModels = p.getBoolean(prefix + ".useAcousticModels"); /* useMixExc = p.getBoolean(prefix + ".useMixExc"); /* Use Mixed excitation */ useFourierMag = p.getBoolean(prefix + ".useFourierMag"); /* Use Fourier magnitudes for pulse generation */ useGV = p.getBoolean(prefix + ".useGV"); /* Use Global Variance in parameter generation */ if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV"); /* Use context-dependent GV, (gv without sil) */ String gvMethod = p.getProperty(prefix + ".gvMethod"); /* GV method: gradient or derivative (default gradient) */
useGV = p.getBoolean(prefix + ".useGV"); if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV", useContextDependentGV); if (p.getProperty(prefix + ".gvMethod") != null) { String sval = p.getProperty(prefix + ".gvMethod");
useGV = p.getBoolean(prefix + ".useGV"); if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV", useContextDependentGV); if (p.getProperty(prefix + ".gvMethod") != null) { String sval = p.getProperty(prefix + ".gvMethod");
alpha = p.getDouble(prefix + ".alpha", alpha); stage = p.getInteger(prefix + ".gamma", stage); useLogGain = p.getBoolean(prefix + ".logGain", useLogGain); beta = p.getDouble(prefix + ".beta", beta); pdfMagStream = p.getStream(prefix + ".Fma"); /* Model MAG */ useAcousticModels = p.getBoolean(prefix + ".useAcousticModels"); /* useMixExc = p.getBoolean(prefix + ".useMixExc"); /* Use Mixed excitation */ useFourierMag = p.getBoolean(prefix + ".useFourierMag"); /* Use Fourier magnitudes for pulse generation */ useGV = p.getBoolean(prefix + ".useGV"); /* Use Global Variance in parameter generation */ if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV"); /* Use context-dependent GV, (gv without sil) */ String gvMethod = p.getProperty(prefix + ".gvMethod"); /* GV method: gradient or derivative (default gradient) */
useGV = p.getBoolean(prefix + ".useGV"); if (useGV) { useContextDependentGV = p.getBoolean(prefix + ".useContextDependentGV", useContextDependentGV); if (p.getProperty(prefix + ".gvMethod") != null) { String sval = p.getProperty(prefix + ".gvMethod");