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.hwpf.model; import java.nio.charset.Charset; import org.apache.poi.util.CodePageUtil; import org.apache.poi.util.Internal; import org.apache.poi.util.StringUtil; /** * Lightweight representation of a text piece. * Works in the character domain, not the byte domain, so you * need to have turned byte references into character * references before getting here. * * @author Ryan Ackley */ @Internal public class TextPiece extends PropertyNode<TextPiece> { private boolean _usesUnicode; private PieceDescriptor _pd; /** * @param start Beginning offset in main document stream, in characters. * @param end Ending offset in main document stream, in characters. * @param text The raw bytes of our text * instead */ public TextPiece(int start, int end, byte[] text, PieceDescriptor pd, int cpStart) { this(start, end, text, pd); } /** * @param start Beginning offset in main document stream, in characters. * @param end Ending offset in main document stream, in characters. * @param text The raw bytes of our text */ public TextPiece(int start, int end, byte[] text, PieceDescriptor pd) { super(start, end, buildInitSB(text, pd)); _usesUnicode = pd.isUnicode(); _pd = pd; // Validate int textLength = ((CharSequence) _buf).length(); if (end - start != textLength) { throw new IllegalStateException("Told we're for characters " + start + " -> " + end + ", but actually covers " + textLength + " characters!"); } if (end < start) { throw new IllegalStateException("Told we're of negative size! start=" + start + " end=" + end); } } /** * Create the StringBuilder from the text and unicode flag */ private static StringBuilder buildInitSB(byte[] text, PieceDescriptor pd) { if (StringUtil.BIG5.equals(pd.getCharset())) { return new StringBuilder(CodePageUtil.cp950ToString(text, 0, text.length)); } String str = new String(text, 0, text.length, (pd.isUnicode()) ? StringUtil.UTF16LE : pd.getCharset()); return new StringBuilder(str); } /** * @return If this text piece is unicode */ public boolean isUnicode() { return _usesUnicode; } public PieceDescriptor getPieceDescriptor() { return _pd; } @Deprecated public StringBuffer getStringBuffer() { return new StringBuffer(getStringBuilder()); } public StringBuilder getStringBuilder() { return (StringBuilder) _buf; } public byte[] getRawBytes() { return _buf.toString().getBytes(Charset.forName(_usesUnicode ? "UTF-16LE" : "Cp1252")); } /** * Returns part of the string. * Works only in characters, not in bytes! * * @param start Local start position, in characters * @param end Local end position, in characters */ @Deprecated public String substring(int start, int end) { StringBuilder buf = (StringBuilder) _buf; // Validate if (start < 0) { throw new StringIndexOutOfBoundsException("Can't request a substring before 0 - asked for " + start); } if (end > buf.length()) { throw new StringIndexOutOfBoundsException("Index " + end + " out of range 0 -> " + buf.length()); } if (end < start) { throw new StringIndexOutOfBoundsException( "Asked for text from " + start + " to " + end + ", which has an end before the start!"); } return buf.substring(start, end); } /** * Adjusts the internal string for deletinging * some characters within this. * * @param start The start position for the delete, in characters * @param length The number of characters to delete */ @Deprecated public void adjustForDelete(int start, int length) { int myStart = getStart(); int myEnd = getEnd(); int end = start + length; /* do we have to delete from this text piece? */ if (start <= myEnd && end >= myStart) { /* find where the deleted area overlaps with this text piece */ int overlapStart = Math.max(myStart, start); int overlapEnd = Math.min(myEnd, end); int bufStart = overlapStart - myStart; int bufEnd = overlapEnd - myStart; ((StringBuilder) _buf).delete(bufStart, bufEnd); } // We need to invoke this even if text from this piece is not being // deleted because the adjustment must propagate to all subsequent // text pieces i.e., if text from tp[n] is being deleted, then // tp[n + 1], tp[n + 2], etc. will need to be adjusted. // The superclass is expected to use a separate sentry for this. super.adjustForDelete(start, length); } /** * Returns the length, in characters */ @Deprecated public int characterLength() { return (getEnd() - getStart()); } /** * Returns the length, in bytes */ public int bytesLength() { return (getEnd() - getStart()) * (_usesUnicode ? 2 : 1); } @Override public boolean equals(Object o) { if (!(o instanceof TextPiece)) return false; TextPiece tp = (TextPiece) o; assert (_buf != null && tp._buf != null && _pd != null && tp._pd != null); return (limitsAreEqual(o) && tp._usesUnicode == this._usesUnicode && tp._buf.toString().equals(this._buf.toString()) && tp._pd.equals(this._pd)); } @Override public int hashCode() { assert false : "hashCode not designed"; return 42; // any arbitrary constant will do } /** * Returns the character position we start at. */ public int getCP() { return getStart(); } public String toString() { return "TextPiece from " + getStart() + " to " + getEnd() + " (" + getPieceDescriptor() + ")"; } }