Java tutorial
package com.sc.l45.weblogviewer.reader; /* * 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. */ import java.io.Closeable; import java.io.File; import java.io.IOException; import java.io.RandomAccessFile; import java.io.UnsupportedEncodingException; import java.nio.charset.Charset; import java.nio.charset.CharsetEncoder; import java.nio.charset.UnsupportedCharsetException; import org.apache.commons.io.Charsets; /** * Reads lines in a file reversely (similar to a BufferedReader, but starting at * the last line). Useful for e.g. searching in log files. * * @since 2.2 */ public class ReversedLinesFileReaderLineSeparator implements Closeable { private final int blockSize; private final Charset encoding; private final RandomAccessFile randomAccessFile; private final long totalByteLength; private final long totalBlockCount; private final byte[][] newLineSequences; private final int avoidNewlineSplitBufferSize; private final int byteDecrement; private FilePart currentFilePart; private boolean trailingNewlineOfFileSkipped = false; /** * Creates a ReversedLinesFileReader with default block size of 4KB and the * platform's default encoding. * * @param file * the file to be read * @throws IOException if an I/O error occurs */ public ReversedLinesFileReaderLineSeparator(final File file) throws IOException { this(file, 4096, Charset.defaultCharset().toString()); } /** * Creates a ReversedLinesFileReader with the given block size and encoding. * * @param file * the file to be read * @param blockSize * size of the internal buffer (for ideal performance this should * match with the block size of the underlying file system). * @param encoding * the encoding of the file * @throws IOException if an I/O error occurs * @since 2.3 */ public ReversedLinesFileReaderLineSeparator(final File file, final int blockSize, final Charset encoding) throws IOException { this.blockSize = blockSize; this.encoding = encoding; randomAccessFile = new RandomAccessFile(file, "r"); totalByteLength = randomAccessFile.length(); int lastBlockLength = (int) (totalByteLength % blockSize); if (lastBlockLength > 0) { totalBlockCount = totalByteLength / blockSize + 1; } else { totalBlockCount = totalByteLength / blockSize; if (totalByteLength > 0) { lastBlockLength = blockSize; } } currentFilePart = new FilePart(totalBlockCount, lastBlockLength, null); // --- check & prepare encoding --- Charset charset = Charsets.toCharset(encoding); CharsetEncoder charsetEncoder = charset.newEncoder(); float maxBytesPerChar = charsetEncoder.maxBytesPerChar(); if (maxBytesPerChar == 1f) { // all one byte encodings are no problem byteDecrement = 1; } else if (charset == Charset.forName("UTF-8")) { // UTF-8 works fine out of the box, for multibyte sequences a second UTF-8 byte can never be a newline byte // http://en.wikipedia.org/wiki/UTF-8 byteDecrement = 1; } else if (charset == Charset.forName("Shift_JIS")) { // Same as for UTF-8 // http://www.herongyang.com/Unicode/JIS-Shift-JIS-Encoding.html byteDecrement = 1; } else if (charset == Charset.forName("UTF-16BE") || charset == Charset.forName("UTF-16LE")) { // UTF-16 new line sequences are not allowed as second tuple of four byte sequences, // however byte order has to be specified byteDecrement = 2; } else if (charset == Charset.forName("UTF-16")) { throw new UnsupportedEncodingException( "For UTF-16, you need to specify the byte order (use UTF-16BE or UTF-16LE)"); } else { throw new UnsupportedEncodingException( "Encoding " + encoding + " is not supported yet (feel free to submit a patch)"); } // NOTE: The new line sequences are matched in the order given, so it is important that \r\n is BEFORE \n newLineSequences = new byte[][] { "\r\n".getBytes(encoding), "\n".getBytes(encoding), "\r".getBytes(encoding) }; avoidNewlineSplitBufferSize = newLineSequences[0].length; } /** * Creates a ReversedLinesFileReader with the given block size and encoding. * * @param file * the file to be read * @param blockSize * size of the internal buffer (for ideal performance this should * match with the block size of the underlying file system). * @param encoding * the encoding of the file * @throws IOException if an I/O error occurs * @throws UnsupportedCharsetException * thrown instead of {@link UnsupportedEncodingException} in version 2.2 if the encoding is not * supported. */ public ReversedLinesFileReaderLineSeparator(final File file, final int blockSize, final String encoding) throws IOException { this(file, blockSize, Charsets.toCharset(encoding)); } public ReversedLinesFileReaderLineSeparator(final File file, final Charset encoding2) throws IOException { this(file, 4096, Charsets.toCharset(encoding2)); } /** * Returns the lines of the file from bottom to top. * * @return the next line or null if the start of the file is reached * @throws IOException if an I/O error occurs */ public String readLine() throws IOException { String line = currentFilePart.readLine(); while (line == null) { currentFilePart = currentFilePart.rollOver(); if (currentFilePart != null) { line = currentFilePart.readLine(); } else { // no more fileparts: we're done, leave line set to null break; } } // aligned behaviour wiht BufferedReader that doesn't return a last, emtpy line if ("".equals(line) && !trailingNewlineOfFileSkipped) { trailingNewlineOfFileSkipped = true; line = readLine(); } return line; } /** * Closes underlying resources. * * @throws IOException if an I/O error occurs */ public void close() throws IOException { randomAccessFile.close(); } private class FilePart { private final long no; private final byte[] data; private byte[] leftOver; private int currentLastBytePos; /** * ctor * @param no the part number * @param length its length * @param leftOverOfLastFilePart remainder * @throws IOException if there is a problem reading the file */ private FilePart(final long no, final int length, final byte[] leftOverOfLastFilePart) throws IOException { this.no = no; int dataLength = length + (leftOverOfLastFilePart != null ? leftOverOfLastFilePart.length : 0); this.data = new byte[dataLength]; final long off = (no - 1) * blockSize; // read data if (no > 0 /* file not empty */) { randomAccessFile.seek(off); final int countRead = randomAccessFile.read(data, 0, length); if (countRead != length) { throw new IllegalStateException("Count of requested bytes and actually read bytes don't match"); } } // copy left over part into data arr if (leftOverOfLastFilePart != null) { System.arraycopy(leftOverOfLastFilePart, 0, data, length, leftOverOfLastFilePart.length); } this.currentLastBytePos = data.length - 1; this.leftOver = null; } /** * Handles block rollover * * @return the new FilePart or null * @throws IOException if there was a problem reading the file */ private FilePart rollOver() throws IOException { if (currentLastBytePos > -1) { throw new IllegalStateException("Current currentLastCharPos unexpectedly positive... " + "last readLine() should have returned something! currentLastCharPos=" + currentLastBytePos); } if (no > 1) { return new FilePart(no - 1, blockSize, leftOver); } else { // NO 1 was the last FilePart, we're finished if (leftOver != null) { throw new IllegalStateException("Unexpected leftover of the last block: leftOverOfThisFilePart=" + new String(leftOver, encoding)); } return null; } } /** * Reads a line. * * @return the line or null * @throws IOException if there is an error reading from the file */ private String readLine() throws IOException { String line = null; int newLineMatchByteCount; boolean isLastFilePart = no == 1; int i = currentLastBytePos; while (i > -1) { if (!isLastFilePart && i < avoidNewlineSplitBufferSize) { // avoidNewlineSplitBuffer: for all except the last file part we // take a few bytes to the next file part to avoid splitting of newlines createLeftOver(); break; // skip last few bytes and leave it to the next file part } // --- check for newline --- LineEndData lineEndData = getNewLineMatchByteCount(data, i); if ((newLineMatchByteCount = lineEndData.length) > 0 /* found newline */) { final int lineStart = i + 1; int lineLengthBytes = (currentLastBytePos - lineStart + 1); if (lineLengthBytes < 0) { throw new IllegalStateException("Unexpected negative line length=" + lineLengthBytes); } byte[] lineData = new byte[lineLengthBytes]; System.arraycopy(data, lineStart, lineData, 0, lineLengthBytes); if (lineData.length > 0) { line = new String(lineData, encoding) + new String(lineEndData.sequence); } else { line = new String(lineData, encoding); } currentLastBytePos = i - newLineMatchByteCount; break; // found line } // --- move cursor --- i -= byteDecrement; // --- end of file part handling --- if (i < 0) { createLeftOver(); break; // end of file part } } // --- last file part handling --- if (isLastFilePart && leftOver != null) { // there will be no line break anymore, this is the first line of the file line = new String(leftOver, encoding); leftOver = null; } return line; } /** * Creates the buffer containing any left over bytes. */ private void createLeftOver() { int lineLengthBytes = currentLastBytePos + 1; if (lineLengthBytes > 0) { // create left over for next block leftOver = new byte[lineLengthBytes]; System.arraycopy(data, 0, leftOver, 0, lineLengthBytes); } else { leftOver = null; } currentLastBytePos = -1; } /** * Finds the new-line sequence and return its length. * * @param data buffer to scan * @param i start offset in buffer * @return length of newline sequence or 0 if none found */ private LineEndData getNewLineMatchByteCount(byte[] data, int i) { for (byte[] newLineSequence : newLineSequences) { boolean match = true; for (int j = newLineSequence.length - 1; j >= 0; j--) { int k = i + j - (newLineSequence.length - 1); match &= k >= 0 && data[k] == newLineSequence[j]; } if (match) { return new LineEndData(newLineSequence); } } return new LineEndData(null); } private class LineEndData { int length; byte[] sequence; public LineEndData(byte[] sequence) { if (sequence != null) { this.sequence = sequence; this.length = sequence.length; } } } } }