private String addRationalValue (Rational r, boolean rawOutput) { String s = null; if (!rawOutput) { s = _format.format (r.toDouble ()); } else { s = r.toString (); } return s; } }
nod.add (new DefaultMutableTreeNode (rarray[i].toString (), false)); nod.add (new DefaultMutableTreeNode (rarray[i].toString (), false)); val.add (new DefaultMutableTreeNode ("XSamplingFrequency: " + rat.toString (), false)); val.add (new DefaultMutableTreeNode ("WhitePointXValue: " + r.toString (), false));
if (r != null) { colorEncBuf.append (margn5 + element ("mix:whitePointXValue", r.toString ()) + EOL); r2.toString ()) + EOL); if (r != null) { chromaBuf.append (margn5 + element ("mix:primaryChromaticitiesRedX", r.toString ()) + EOL); useChromaBuf = true; if (r != null) { chromaBuf.append (margn5 + element ("mix:primaryChromaticitiesRedY", r.toString ()) + EOL); useChromaBuf = true; if (r != null) { chromaBuf.append (margn5 + element ("mix:primaryChromaticitiesGreenX", r.toString ()) + EOL); useChromaBuf = true; if (r != null) { chromaBuf.append (margn5 + element ("mix:primaryChromaticitiesGreenY", r.toString ()) + EOL); useChromaBuf = true; if (r != null) { chromaBuf.append (margn5 + element ("mix:primaryChromaticitiesBlueX", r.toString ()) + EOL);
if (r != null) { eBuf.append (margn5 + element ("mix:WhitePoint_Xvalue", r.toString ()) + EOL); r1.toString ()) + EOL); eBuf.append (margn4 + elementStart("mix:PrimaryChromaticities") + EOL); eBuf.append (margn5 + element ("mix:PrimaryChromaticities_RedX", r.toString ()) + EOL); r = niso.getPrimaryChromaticitiesRedY (); if (r != null) { eBuf.append (margn5 + element ("mix:PrimaryChromaticities_RedY", r.toString ()) + EOL); r.toString ()) + EOL); r.toString ()) + EOL); r.toString ()) + EOL); r.toString ()) + EOL);
elem = rationalArray[i].toString ();
elem = rationalArray[i].toString ();