Java tutorial
/* Lemur License Agreement Copyright (c) 2000-2011 The Lemur Project. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The names "Lemur", "Indri", "University of Massachusetts" and "Carnegie Mellon" must not be used to endorse or promote products derived from this software without prior written permission. To obtain permission, contact license@lemurproject.org 4. Products derived from this software may not be called "Lemur" or "Indri" nor may "Lemur" or "Indri" appear in their names without prior written permission of The Lemur Project. To obtain permission, contact license@lemurproject.org. THIS SOFTWARE IS PROVIDED BY THE LEMUR PROJECT AND OTHER CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * To change this template, choose Tools | Templates * and open the template in the editor. */ package org.lemurproject.galago.core.parse; import org.lemurproject.galago.utility.ByteUtil; import java.io.*; import java.util.HashMap; import java.util.Iterator; import java.util.Map.Entry; import java.util.Set; // importing org.apache.commons.logging.Log; // importing org.apache.commons.logging.LogFactory; /** * * @author mhoy */ public class WARCRecord { // public static final Log LOG = LogFactory.getLog(WarcRecord.class); public static final String WARC_VERSION = "WARC/"; ////public static String WARC_VERSION = "WARC/1.0"; //public static String WARC_VERSION = "WARC/0.18"; ////public static String WARC_VERSION_LINE = "WARC/1.0\n"; //public static String WARC_VERSION_LINE = "WARC/0.18\n"; private static final String NEWLINE = "\n"; private static final String CR_NEWLINE = "\r\n"; private static final byte MASK_THREE_BYTE_CHAR = (byte) (0xE0); private static final byte MASK_TWO_BYTE_CHAR = (byte) (0xC0); private static final byte MASK_TOPMOST_BIT = (byte) (0x80); private static final byte MASK_BOTTOM_SIX_BITS = (byte) (0x1F); private static final byte MASK_BOTTOM_FIVE_BITS = (byte) (0x3F); private static final byte MASK_BOTTOM_FOUR_BITS = (byte) (0x0F); private static final int MAX_CONTENT_LENGTH = 100 * 1024 * 1024; // 100 MB private static String LINE_ENDING = "\n"; public static String WARC_VERSION_LINE = "WARC/0.18\n"; private static String readLineFromInputStream(DataInputStream in) throws IOException { StringBuilder retString = new StringBuilder(); boolean found_cr = false; boolean keepReading = true; try { do { char thisChar = 0; byte readByte = in.readByte(); // check to see if it's a multibyte character if ((readByte & MASK_THREE_BYTE_CHAR) == MASK_THREE_BYTE_CHAR) { found_cr = false; // need to read the next 2 bytes if (in.available() < 2) { // treat these all as individual characters retString.append((char) readByte); int numAvailable = in.available(); for (int i = 0; i < numAvailable; i++) { retString.append((char) (in.readByte())); } continue; } byte secondByte = in.readByte(); byte thirdByte = in.readByte(); // ensure the topmost bit is set if (((secondByte & MASK_TOPMOST_BIT) != MASK_TOPMOST_BIT) || ((thirdByte & MASK_TOPMOST_BIT) != MASK_TOPMOST_BIT)) { //treat these as individual characters retString.append((char) readByte); retString.append((char) secondByte); retString.append((char) thirdByte); continue; } int finalVal = (thirdByte & MASK_BOTTOM_FIVE_BITS) + 64 * (secondByte & MASK_BOTTOM_FIVE_BITS) + 4096 * (readByte & MASK_BOTTOM_FOUR_BITS); thisChar = (char) finalVal; } else if ((readByte & MASK_TWO_BYTE_CHAR) == MASK_TWO_BYTE_CHAR) { found_cr = false; // need to read next byte if (in.available() < 1) { // treat this as individual characters retString.append((char) readByte); continue; } byte secondByte = in.readByte(); if ((secondByte & MASK_TOPMOST_BIT) != MASK_TOPMOST_BIT) { retString.append((char) readByte); retString.append((char) secondByte); continue; } int finalVal = (secondByte & MASK_BOTTOM_FIVE_BITS) + 64 * (readByte & MASK_BOTTOM_SIX_BITS); thisChar = (char) finalVal; } else { // interpret it as a single byte thisChar = (char) readByte; } // Look for carriage return; if found set a flag if (thisChar == '\r') { found_cr = true; } if (thisChar == '\n') { // if the linefeed is the next character after the carriage return if (found_cr) { LINE_ENDING = CR_NEWLINE; } else { LINE_ENDING = NEWLINE; } keepReading = false; } else { retString.append(thisChar); } } while (keepReading); } catch (EOFException eofEx) { return null; } if (retString.length() == 0) { return ""; } return retString.toString(); } private static boolean findNextWARCRecord(DataInputStream in) throws IOException { // cannot be using a buffered reader here!!!! // just read the header // first - find our WARC header boolean foundMark = false; String line; while ((!foundMark) && ((line = readLineFromInputStream(in)) != null)) { if (line.startsWith(WARC_VERSION)) { WARC_VERSION_LINE = line; foundMark = true; } } return foundMark; } private static byte[] readNextRecord(DataInputStream in, StringBuffer headerBuffer) throws IOException { if (in == null) { return null; } if (headerBuffer == null) { return null; } String line = null; // boolean foundMark = false; byte[] retContent = null; boolean foundMark = findNextWARCRecord(in); // // cannot be using a buffered reader here!!!! // // just read the header // // first - find our WARC header // while ((!foundMark) && ((line = readLineFromInputStream(in)) != null)) { // if (line.startsWith(WARC_VERSION)) { // WARC_VERSION_LINE = line; // foundMark = true; // } // } // no WARC mark? if (!foundMark) { return null; } // LOG.info("Found WARC_VERSION"); int contentLength = -1; // read until we see contentLength then an empty line // (to handle malformed ClueWeb09 headers that have blank lines) // get the content length and set our retContent for (line = readLineFromInputStream(in).trim(); line.length() > 0 || contentLength < 0; line = readLineFromInputStream(in).trim()) { if (line.length() > 0) { headerBuffer.append(line); headerBuffer.append(LINE_ENDING); // find the content length designated by Content-Length: <length> String[] parts = line.split(":", 2); if (parts.length == 2 && parts[0].equals("Content-Length")) { try { contentLength = Integer.parseInt(parts[1].trim()); // LOG.info("WARC record content length: " + contentLength); // if this document is too long if (contentLength > MAX_CONTENT_LENGTH) { in.skip(contentLength); if (!findNextWARCRecord(in)) { return null; } headerBuffer.delete(0, headerBuffer.length()); } } catch (NumberFormatException nfEx) { contentLength = -1; } } } } // now read the bytes of the content retContent = new byte[contentLength]; int totalWant = contentLength; int totalRead = 0; // // LOOP TO REMOVE LEADING CR * LF // To prevent last few characters from being cut off of the content // when reading // while ((totalRead == 0) && (totalRead < contentLength)) { byte CR = in.readByte(); byte LF = in.readByte(); if ((CR != 13) && (LF != 10)) { retContent[0] = CR; retContent[1] = LF; totalRead = 2; totalWant = contentLength - totalRead; } } // // // while (totalRead < contentLength) { try { int numRead = in.read(retContent, totalRead, totalWant); if (numRead < 0) { return null; } else { totalRead += numRead; totalWant = contentLength - totalRead; } // end if (numRead < 0) / else } catch (EOFException eofEx) { // resize to what we have if (totalRead > 0) { byte[] newReturn = new byte[totalRead]; System.arraycopy(retContent, 0, newReturn, 0, totalRead); return newReturn; } else { return null; } } // end try/catch (EOFException) } // end while (totalRead < contentLength) return retContent; } public static WARCRecord readNextWarcRecord(DataInputStream in) throws IOException { // LOG.info("Starting read of WARC record"); StringBuffer recordHeader = new StringBuffer(); byte[] recordContent = readNextRecord(in, recordHeader); if (recordContent == null) { // LOG.info("WARC content is null - file is complete"); return null; } // extract out our header information String thisHeaderString = recordHeader.toString(); String[] headerLines = thisHeaderString.split(LINE_ENDING); WARCRecord retRecord = new WARCRecord(); for (int i = 0; i < headerLines.length; i++) { String[] pieces = headerLines[i].split(":", 2); if (pieces.length != 2) { retRecord.addHeaderMetadata(pieces[0], ""); continue; } String thisKey = pieces[0].trim(); String thisValue = pieces[1].trim(); // check for known keys if (thisKey.equals("WARC-Type")) { // LOG.info("Setting WARC record type: " + thisValue); retRecord.setWarcRecordType(thisValue); } else if (thisKey.equals("WARC-Date")) { retRecord.setWarcDate(thisValue); } else if (thisKey.equals("WARC-Record-ID")) { // LOG.info("Setting WARC record ID: " + thisValue); retRecord.setWarcUUID(thisValue); } else if (thisKey.equals("Content-Type")) { retRecord.setWarcContentType(thisValue); } else { retRecord.addHeaderMetadata(thisKey, thisValue); } } // set the content retRecord.setContent(recordContent); return retRecord; } public static class WarcHeader { public String contentType = ""; public String UUID = ""; public String dateString = ""; public String recordType = ""; public HashMap<String, String> metadata = new HashMap<String, String>(); public int contentLength = 0; public WarcHeader() { } public WarcHeader(WarcHeader o) { this.contentType = o.contentType; this.UUID = o.UUID; this.dateString = o.dateString; this.recordType = o.recordType; this.metadata.putAll(o.metadata); this.contentLength = o.contentLength; } public void write(DataOutput out) throws IOException { out.writeUTF(contentType); out.writeUTF(UUID); out.writeUTF(dateString); out.writeUTF(recordType); out.writeInt(metadata.size()); Iterator<Entry<String, String>> metadataIterator = metadata.entrySet().iterator(); while (metadataIterator.hasNext()) { Entry<String, String> thisEntry = metadataIterator.next(); out.writeUTF(thisEntry.getKey()); out.writeUTF(thisEntry.getValue()); } out.writeInt(contentLength); } public void readFields(DataInput in) throws IOException { contentType = in.readUTF(); UUID = in.readUTF(); dateString = in.readUTF(); recordType = in.readUTF(); metadata.clear(); int numMetaItems = in.readInt(); for (int i = 0; i < numMetaItems; i++) { String thisKey = in.readUTF(); String thisValue = in.readUTF(); metadata.put(thisKey, thisValue); } contentLength = in.readInt(); } @Override public String toString() { StringBuffer retBuffer = new StringBuffer(); retBuffer.append(WARC_VERSION_LINE); retBuffer.append(LINE_ENDING); retBuffer.append("WARC-Type: " + recordType + LINE_ENDING); retBuffer.append("WARC-Date: " + dateString + LINE_ENDING); Iterator<Entry<String, String>> metadataIterator = metadata.entrySet().iterator(); while (metadataIterator.hasNext()) { Entry<String, String> thisEntry = metadataIterator.next(); retBuffer.append(thisEntry.getKey()); retBuffer.append(": "); retBuffer.append(thisEntry.getValue()); retBuffer.append(LINE_ENDING); } // Keep this as the last WARC-... retBuffer.append("WARC-Record-ID: " + UUID + LINE_ENDING); retBuffer.append("Content-Type: " + contentType + LINE_ENDING); retBuffer.append("Content-Length: " + contentLength + LINE_ENDING); return retBuffer.toString(); } } private WarcHeader warcHeader = new WarcHeader(); private byte[] warcContent = null; private String warcFilePath = ""; public WARCRecord() { } public WARCRecord(WARCRecord o) { this.warcHeader = new WarcHeader(o.warcHeader); this.warcContent = o.warcContent; } public int getTotalRecordLength() { int headerLength = warcHeader.toString().length(); return (headerLength + warcContent.length); } public void set(WARCRecord o) { this.warcHeader = new WarcHeader(o.warcHeader); this.warcContent = o.warcContent; } public String getWarcFilePath() { return warcFilePath; } public void setWarcFilePath(String path) { warcFilePath = path; } public void setWarcRecordType(String recordType) { warcHeader.recordType = recordType; } public void setWarcContentType(String contentType) { warcHeader.contentType = contentType; } public void setWarcDate(String dateString) { warcHeader.dateString = dateString; } public void setWarcUUID(String UUID) { warcHeader.UUID = UUID; } public void addHeaderMetadata(String key, String value) { // don't allow addition of known keys if (key.equals("WARC-Type")) { return; } if (key.equals("WARC-Date")) { return; } if (key.equals("WARC-Record-ID")) { return; } if (key.equals("Content-Type")) { return; } if (key.equals("Content-Length")) { return; } warcHeader.metadata.put(key, value); } public void clearHeaderMetadata() { warcHeader.metadata.clear(); } public Set<Entry<String, String>> getHeaderMetadata() { return warcHeader.metadata.entrySet(); } public String getHeaderMetadataItem(String key) { if (key.equals("WARC-Type")) { return warcHeader.recordType; } if (key.equals("WARC-Date")) { return warcHeader.dateString; } if (key.equals("WARC-Record-ID")) { return warcHeader.UUID; } if (key.equals("Content-Type")) { return warcHeader.contentType; } if (key.equals("Content-Length")) { return Integer.toString(warcHeader.contentLength); } return warcHeader.metadata.get(key); } public void setContent(byte[] content) { warcContent = content; warcHeader.contentLength = content.length; } public void setContent(String content) { setContent(ByteUtil.fromString(content)); } public void setContentLength(int len) { warcHeader.contentLength = len; } public byte[] getContent() { return warcContent; } public byte[] getByteContent() { return warcContent; } public String getContentUTF8() { return ByteUtil.toString(warcContent); } public String getHeaderRecordType() { return warcHeader.recordType; } @Override public String toString() { StringBuffer retBuffer = new StringBuffer(); retBuffer.append(warcHeader.toString()); retBuffer.append(LINE_ENDING); retBuffer.append(new String(warcContent)); return retBuffer.toString(); } public String getHeaderString() { return warcHeader.toString(); } public void write(DataOutput out) throws IOException { warcHeader.write(out); out.write(warcContent); } public void readFields(DataInput in) throws IOException { warcHeader.readFields(in); int contentLengthBytes = warcHeader.contentLength; warcContent = new byte[contentLengthBytes]; in.readFully(warcContent); } }