package jogamp.opengl.util.pngj.chunks; import java.io.ByteArrayOutputStream; import java.io.IOException; import jogamp.opengl.util.pngj.ImageInfo; import jogamp.opengl.util.pngj.PngHelperInternal; import jogamp.opengl.util.pngj.PngjException; /** * sPLT chunk. *

* see http://www.w3.org/TR/PNG/#11sPLT */ public class PngChunkSPLT extends PngChunkMultiple { public final static String ID = ChunkHelper.sPLT; // http://www.w3.org/TR/PNG/#11sPLT private String palName; private int sampledepth; // 8/16 private int[] palette; // 5 elements per entry public PngChunkSPLT(ImageInfo info) { super(ID, info); } @Override public ChunkOrderingConstraint getOrderingConstraint() { return ChunkOrderingConstraint.BEFORE_IDAT; } @Override public ChunkRaw createRawChunk() { try { ByteArrayOutputStream ba = new ByteArrayOutputStream(); ba.write(palName.getBytes(PngHelperInternal.charsetLatin1)); ba.write(0); // separator ba.write((byte) sampledepth); int nentries = getNentries(); for (int n = 0; n < nentries; n++) { for (int i = 0; i < 4; i++) { if (sampledepth == 8) PngHelperInternal.writeByte(ba, (byte) palette[n * 5 + i]); else PngHelperInternal.writeInt2(ba, palette[n * 5 + i]); } PngHelperInternal.writeInt2(ba, palette[n * 5 + 4]); } byte[] b = ba.toByteArray(); ChunkRaw chunk = createEmptyChunk(b.length, false); chunk.data = b; return chunk; } catch (IOException e) { throw new PngjException(e); } } @Override public void parseFromRaw(ChunkRaw c) { int t = -1; for (int i = 0; i < c.data.length; i++) { // look for first zero if (c.data[i] == 0) { t = i; break; } } if (t <= 0 || t > c.data.length - 2) throw new PngjException("bad sPLT chunk: no separator found"); palName = new String(c.data, 0, t, PngHelperInternal.charsetLatin1); sampledepth = PngHelperInternal.readInt1fromByte(c.data, t + 1); t += 2; int nentries = (c.data.length - t) / (sampledepth == 8 ? 6 : 10); palette = new int[nentries * 5]; int r, g, b, a, f, ne; ne = 0; for (int i = 0; i < nentries; i++) { if (sampledepth == 8) { r = PngHelperInternal.readInt1fromByte(c.data, t++); g = PngHelperInternal.readInt1fromByte(c.data, t++); b = PngHelperInternal.readInt1fromByte(c.data, t++); a = PngHelperInternal.readInt1fromByte(c.data, t++); } else { r = PngHelperInternal.readInt2fromBytes(c.data, t); t += 2; g = PngHelperInternal.readInt2fromBytes(c.data, t); t += 2; b = PngHelperInternal.readInt2fromBytes(c.data, t); t += 2; a = PngHelperInternal.readInt2fromBytes(c.data, t); t += 2; } f = PngHelperInternal.readInt2fromBytes(c.data, t); t += 2; palette[ne++] = r; palette[ne++] = g; palette[ne++] = b; palette[ne++] = a; palette[ne++] = f; } } @Override public void cloneDataFromRead(PngChunk other) { PngChunkSPLT otherx = (PngChunkSPLT) other; palName = otherx.palName; sampledepth = otherx.sampledepth; palette = new int[otherx.palette.length]; System.arraycopy(otherx.palette, 0, palette, 0, palette.length); } public int getNentries() { return palette.length / 5; } public String getPalName() { return palName; } public void setPalName(String palName) { this.palName = palName; } public int getSampledepth() { return sampledepth; } public void setSampledepth(int sampledepth) { this.sampledepth = sampledepth; } public int[] getPalette() { return palette; } public void setPalette(int[] palette) { this.palette = palette; } }