/** Returns this image as an 8-bit BufferedImage. */ public BufferedImage getBufferedImage() { return convertToByte(true).getBufferedImage(); }
static private final ImageBytes asBytes(final FloatProcessor fp) { return asBytes((ByteProcessor)fp.convertToByte(true)); } static private final ImageBytes asBytes(final ColorProcessor cp) {
static private final ImageBytes asBytes(final FloatProcessor fp, final ByteProcessor mask) { return asBytes((ByteProcessor)fp.convertToByte(true), mask); } static private final ImageBytes asBytes(final ColorProcessor cp, final ByteProcessor mask) {
/** Returns this image as an 8-bit BufferedImage. */ public BufferedImage getBufferedImage() { return convertToByte(true).getBufferedImage(); }
public void setFromFloatProcessors(FloatProcessor[] fp) { ImageProcessor ip2 = fp[0].convertToByte(false); setPixels(ip2.getPixels()); }
public void setFromFloatProcessors(FloatProcessor[] fp) { ImageProcessor ip2 = fp[0].convertToByte(false); setPixels(ip2.getPixels()); }
ip2 = fp.convertToByte(true);
ip2 = fp.convertToByte(true);
ipToDisplay = fpg.convertToByte( false ); else if( auxSourceImp.getProcessor() instanceof ShortProcessor ) ipToDisplay = fpg.convertToShort( false );
case BYTE: floatEdm.setMinAndMax(0., 255.); outIp = floatEdm.convertToByte(true); break; case BYTE_OVERWRITE:
case BYTE: floatEdm.setMinAndMax(0., 255.); outIp = floatEdm.convertToByte(true); break; case BYTE_OVERWRITE:
case BYTE: floatEdm.setMinAndMax(0., 255.); outIp = floatEdm.convertToByte(true); break; case BYTE_OVERWRITE: