Java tutorial
/* ==================================================================== Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file to You under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ==================================================================== */ package org.apache.poi.hssf.record; import java.util.ArrayList; import java.util.List; import org.apache.poi.util.LittleEndianOutput; /** * PaletteRecord (0x0092) - Supports custom palettes. * @author Andrew C. Oliver (acoliver at apache dot org) * @author Brian Sanders (bsanders at risklabs dot com) - custom palette editing * */ public final class PaletteRecord extends StandardRecord { public final static short sid = 0x0092; /** The standard size of an XLS palette */ public final static byte STANDARD_PALETTE_SIZE = (byte) 56; /** The byte index of the first color */ public final static short FIRST_COLOR_INDEX = (short) 0x8; private final List<PColor> _colors; public PaletteRecord() { PColor[] defaultPalette = createDefaultPalette(); _colors = new ArrayList<>(defaultPalette.length); for (PColor element : defaultPalette) { _colors.add(element); } } public PaletteRecord(RecordInputStream in) { int field_1_numcolors = in.readShort(); _colors = new ArrayList<>(field_1_numcolors); for (int k = 0; k < field_1_numcolors; k++) { _colors.add(new PColor(in)); } } @Override public String toString() { StringBuffer buffer = new StringBuffer(); buffer.append("[PALETTE]\n"); buffer.append(" numcolors = ").append(_colors.size()).append('\n'); for (int i = 0; i < _colors.size(); i++) { PColor c = _colors.get(i); buffer.append("* colornum = ").append(i).append('\n'); buffer.append(c); buffer.append("/*colornum = ").append(i).append('\n'); } buffer.append("[/PALETTE]\n"); return buffer.toString(); } @Override public void serialize(LittleEndianOutput out) { out.writeShort(_colors.size()); for (int i = 0; i < _colors.size(); i++) { _colors.get(i).serialize(out); } } @Override protected int getDataSize() { return 2 + _colors.size() * PColor.ENCODED_SIZE; } @Override public short getSid() { return sid; } /** * Returns the color value at a given index * * @param byteIndex palette index, must be >= 0x8 * * @return the RGB triplet for the color, or <code>null</code> if the specified index * does not exist */ public byte[] getColor(int byteIndex) { int i = byteIndex - FIRST_COLOR_INDEX; if (i < 0 || i >= _colors.size()) { return null; } return _colors.get(i).getTriplet(); } /** * Sets the color value at a given index * * If the given index is greater than the current last color index, * then black is inserted at every index required to make the palette continuous. * * @param byteIndex the index to set; if this index is less than 0x8 or greater than * 0x40, then no modification is made * @param red the red color part * @param green the green color part * @param blue the blue color part */ public void setColor(short byteIndex, byte red, byte green, byte blue) { int i = byteIndex - FIRST_COLOR_INDEX; if (i < 0 || i >= STANDARD_PALETTE_SIZE) { return; } // may need to grow - fill intervening palette entries with black while (_colors.size() <= i) { _colors.add(new PColor(0, 0, 0)); } PColor custColor = new PColor(red, green, blue); _colors.set(i, custColor); } /** * Creates the default palette as PaletteRecord binary data */ private static PColor[] createDefaultPalette() { return new PColor[] { pc(0, 0, 0), pc(255, 255, 255), pc(255, 0, 0), pc(0, 255, 0), pc(0, 0, 255), pc(255, 255, 0), pc(255, 0, 255), pc(0, 255, 255), pc(128, 0, 0), pc(0, 128, 0), pc(0, 0, 128), pc(128, 128, 0), pc(128, 0, 128), pc(0, 128, 128), pc(192, 192, 192), pc(128, 128, 128), pc(153, 153, 255), pc(153, 51, 102), pc(255, 255, 204), pc(204, 255, 255), pc(102, 0, 102), pc(255, 128, 128), pc(0, 102, 204), pc(204, 204, 255), pc(0, 0, 128), pc(255, 0, 255), pc(255, 255, 0), pc(0, 255, 255), pc(128, 0, 128), pc(128, 0, 0), pc(0, 128, 128), pc(0, 0, 255), pc(0, 204, 255), pc(204, 255, 255), pc(204, 255, 204), pc(255, 255, 153), pc(153, 204, 255), pc(255, 153, 204), pc(204, 153, 255), pc(255, 204, 153), pc(51, 102, 255), pc(51, 204, 204), pc(153, 204, 0), pc(255, 204, 0), pc(255, 153, 0), pc(255, 102, 0), pc(102, 102, 153), pc(150, 150, 150), pc(0, 51, 102), pc(51, 153, 102), pc(0, 51, 0), pc(51, 51, 0), pc(153, 51, 0), pc(153, 51, 102), pc(51, 51, 153), pc(51, 51, 51), }; } private static PColor pc(int r, int g, int b) { return new PColor(r, g, b); } /** * PColor - element in the list of colors */ private static final class PColor { public static final short ENCODED_SIZE = 4; private final int _red; private final int _green; private final int _blue; public PColor(int red, int green, int blue) { _red = red; _green = green; _blue = blue; } public byte[] getTriplet() { return new byte[] { (byte) _red, (byte) _green, (byte) _blue }; } public PColor(RecordInputStream in) { _red = in.readByte(); _green = in.readByte(); _blue = in.readByte(); in.readByte(); // unused } public void serialize(LittleEndianOutput out) { out.writeByte(_red); out.writeByte(_green); out.writeByte(_blue); out.writeByte(0); } @Override public String toString() { StringBuffer buffer = new StringBuffer(); buffer.append(" red = ").append(_red & 0xff).append('\n'); buffer.append(" green = ").append(_green & 0xff).append('\n'); buffer.append(" blue = ").append(_blue & 0xff).append('\n'); return buffer.toString(); } } }