public final void writeCharEndian(char[] v, int startPos, int len) throws IOException { assert v.length < startPos + len; for (int i = startPos; i < startPos + len; i++) writeCharEndian(v[i]); }
public final void writeCharEndian(char[] v, int startPos, int len) throws IOException { assert v.length < startPos + len; for (int i = startPos; i < startPos + len; i++) writeCharEndian(v[i]); }
public final void writeCharEndian(char[] v) throws IOException { writeCharEndian(v, 0, v.length); }
public final void writeCharEndian(char[] v) throws IOException { writeCharEndian(v, 0, v.length); }
public void write(MaryRandomAccessFile stream) throws IOException { stream.writeIntEndian(featureDimension); stream.writeIntEndian(totalComponents); stream.writeBooleanEndian(isDiagonalCovariance); if (info != null && info.length() > 0) { stream.writeIntEndian(info.length()); stream.writeCharEndian(info.toCharArray()); } else stream.writeIntEndian(0); stream.writeDoubleEndian(weights); for (int i = 0; i < totalComponents; i++) components[i].write(stream); }
public void write(MaryRandomAccessFile stream) throws IOException { stream.writeIntEndian(featureDimension); stream.writeIntEndian(totalComponents); stream.writeBooleanEndian(isDiagonalCovariance); if (info != null && info.length() > 0) { stream.writeIntEndian(info.length()); stream.writeCharEndian(info.toCharArray()); } else stream.writeIntEndian(0); stream.writeDoubleEndian(weights); for (int i = 0; i < totalComponents; i++) components[i].write(stream); }
if (fp != null) { fp.writeBooleanEndian(b1); fp.writeCharEndian(c1); fp.writeShortEndian(s1); fp.writeIntEndian(i1);
if (fp != null) { fp.writeBooleanEndian(b1); fp.writeCharEndian(c1); fp.writeShortEndian(s1); fp.writeIntEndian(i1);