package jogamp.opengl.util.pngj.chunks; import jogamp.opengl.util.pngj.ImageInfo; import jogamp.opengl.util.pngj.PngHelperInternal; import jogamp.opengl.util.pngj.PngjException; /** * tRNS chunk. *

* see http://www.w3.org/TR/PNG/#11tRNS *

* this chunk structure depends on the image type */ public class PngChunkTRNS extends PngChunkSingle { public final static String ID = ChunkHelper.tRNS; // http://www.w3.org/TR/PNG/#11tRNS // only one of these is meaningful, depending on the image type private int gray; private int red, green, blue; private int[] paletteAlpha = new int[] {}; public PngChunkTRNS(ImageInfo info) { super(ID, info); } @Override public ChunkOrderingConstraint getOrderingConstraint() { return ChunkOrderingConstraint.AFTER_PLTE_BEFORE_IDAT; } @Override public ChunkRaw createRawChunk() { ChunkRaw c = null; if (imgInfo.greyscale) { c = createEmptyChunk(2, true); PngHelperInternal.writeInt2tobytes(gray, c.data, 0); } else if (imgInfo.indexed) { c = createEmptyChunk(paletteAlpha.length, true); for (int n = 0; n < c.len; n++) { c.data[n] = (byte) paletteAlpha[n]; } } else { c = createEmptyChunk(6, true); PngHelperInternal.writeInt2tobytes(red, c.data, 0); PngHelperInternal.writeInt2tobytes(green, c.data, 0); PngHelperInternal.writeInt2tobytes(blue, c.data, 0); } return c; } @Override public void parseFromRaw(ChunkRaw c) { if (imgInfo.greyscale) { gray = PngHelperInternal.readInt2fromBytes(c.data, 0); } else if (imgInfo.indexed) { int nentries = c.data.length; paletteAlpha = new int[nentries]; for (int n = 0; n < nentries; n++) { paletteAlpha[n] = (int) (c.data[n] & 0xff); } } else { red = PngHelperInternal.readInt2fromBytes(c.data, 0); green = PngHelperInternal.readInt2fromBytes(c.data, 2); blue = PngHelperInternal.readInt2fromBytes(c.data, 4); } } @Override public void cloneDataFromRead(PngChunk other) { PngChunkTRNS otherx = (PngChunkTRNS) other; gray = otherx.gray; red = otherx.red; green = otherx.green; blue = otherx.blue; if (otherx.paletteAlpha != null) { paletteAlpha = new int[otherx.paletteAlpha.length]; System.arraycopy(otherx.paletteAlpha, 0, paletteAlpha, 0, paletteAlpha.length); } } /** * Set rgb values * */ public void setRGB(int r, int g, int b) { if (imgInfo.greyscale || imgInfo.indexed) throw new PngjException("only rgb or rgba images support this"); red = r; green = g; blue = b; } public int[] getRGB() { if (imgInfo.greyscale || imgInfo.indexed) throw new PngjException("only rgb or rgba images support this"); return new int[] { red, green, blue }; } public void setGray(int g) { if (!imgInfo.greyscale) throw new PngjException("only grayscale images support this"); gray = g; } public int getGray() { if (!imgInfo.greyscale) throw new PngjException("only grayscale images support this"); return gray; } /** * WARNING: non deep copy */ public void setPalletteAlpha(int[] palAlpha) { if (!imgInfo.indexed) throw new PngjException("only indexed images support this"); paletteAlpha = palAlpha; } /** * to use when only one pallete index is set as totally transparent */ public void setIndexEntryAsTransparent(int palAlphaIndex) { if (!imgInfo.indexed) throw new PngjException("only indexed images support this"); paletteAlpha = new int[] { palAlphaIndex + 1 }; for (int i = 0; i < palAlphaIndex; i++) paletteAlpha[i] = 255; paletteAlpha[palAlphaIndex] = 0; } /** * WARNING: non deep copy */ public int[] getPalletteAlpha() { return paletteAlpha; } }