private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }
private void parse_sBIT_chunk(PNGChunk chunk) { if (colorType == PNG_COLOR_PALETTE) { significantBits = new int[3]; } else { significantBits = new int[inputBands]; } for (int i = 0; i < significantBits.length; i++) { int bits = chunk.getByte(i); int depth = (colorType == PNG_COLOR_PALETTE) ? 8 : bitDepth; if (bits <= 0 || bits > depth) { // Error -- significant bits must be between 0 and // image bit depth. String msg = PropertyUtil.getString("PNGImageDecoder13"); throw new RuntimeException(msg); } significantBits[i] = bits; } if (encodeParam != null) { encodeParam.setSignificantBits(significantBits); } if (emitProperties) { properties.put("significant_bits", significantBits); } }