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LIRe源代码分析系列文章列表:
LIRe 源代码分析 2:基本接口(DocumentBuilder)
LIRe 源代码分析 3:基本接口(ImageSearcher)
LIRe 源代码分析 4:建立索引(DocumentBuilder)[以颜色布局为例]
LIRe 源代码分析 6:检索(ImageSearcher)[以颜色布局为例]
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本文分析LIRe的基本接口。LIRe的基本接口完成的工作不外乎两项:生成索引和检索。生成索引就是根据图片提取特征向量,然后存储特征向量到索引的过程。检索就是根据输入图片的特征向量到索引中查找相似图片的过程。
LIRe的基本接口位于net.semanticmetadata.lire的包中,如下图所示:
将这些接口分为2类:
下面来看看与DocumentBuilder相关的类的定义:
(LIRe在代码注释方面做得很好,每个函数的作用都写得很清楚)
DocumentBuilder相关的类的继承关系如下图所示。可见,各种算法类都继承了AbstractDocumentBuilder,而AbstractDocumentBuilder实现了DocumentBuilder。
详细的源代码如下所示:
DocumentBuilder
/* * This file is part of the LIRe project: http://www.semanticmetadata.net/lire * LIRe is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * LIRe is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with LIRe; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * We kindly ask you to refer the following paper in any publication mentioning Lire: * * Lux Mathias, Savvas A. Chatzichristofis. Lire: Lucene Image Retrieval 鈥� * An Extensible Java CBIR Library. In proceedings of the 16th ACM International * Conference on Multimedia, pp. 1085-1088, Vancouver, Canada, 2008 * * http://doi.acm.org/10.1145/1459359.1459577 * * Copyright statement: * ~~~~~~~~~~~~~~~~~~~~ * (c) 2002-2011 by Mathias Lux ([email protected]) * http://www.semanticmetadata.net/lire */ package net.semanticmetadata.lire; import org.apache.lucene.document.Document; import java.awt.image.BufferedImage; import java.io.IOException; import java.io.InputStream; /** * <h2>Creating an Index</h2> * <p/> * Use DocumentBuilderFactory to create a DocumentBuilder, which * will create Lucene Documents from images. Add this documents to * an index like this: * <p/> * <pre> * System.out.println(">> Indexing " + images.size() + " files."); * DocumentBuilder builder = DocumentBuilderFactory.getExtensiveDocumentBuilder(); * IndexWriter iw = new IndexWriter(indexPath, new SimpleAnalyzer(LuceneUtils.LUCENE_VERSION), true); * int count = 0; * long time = System.currentTimeMillis(); * for (String identifier : images) { * Document doc = builder.createDocument(new FileInputStream(identifier), identifier); * iw.addDocument(doc); * count ++; * if (count % 25 == 0) System.out.println(count + " files indexed."); * } * long timeTaken = (System.currentTimeMillis() - time); * float sec = ((float) timeTaken) / 1000f; * * System.out.println(sec + " seconds taken, " + (timeTaken / count) + " ms per image."); * iw.optimize(); * iw.close(); * </pre> * <p/> * <p/> * This file is part of the Caliph and Emir project: http://www.SemanticMetadata.net * <br>Date: 31.01.2006 * <br>Time: 23:02:00 * * @author Mathias Lux, [email protected] */ public interface DocumentBuilder { public static final int MAX_IMAGE_SIDE_LENGTH = 800; public static final String FIELD_NAME_SCALABLECOLOR = "descriptorScalableColor"; public static final String FIELD_NAME_COLORLAYOUT = "descriptorColorLayout"; public static final String FIELD_NAME_EDGEHISTOGRAM = "descriptorEdgeHistogram"; public static final String FIELD_NAME_AUTOCOLORCORRELOGRAM = "featureAutoColorCorrelogram"; public static final String FIELD_NAME_COLORHISTOGRAM = "featureColorHistogram"; public static final String FIELD_NAME_CEDD = "featureCEDD"; public static final String FIELD_NAME_FCTH = "featureFCTH"; public static final String FIELD_NAME_JCD = "featureJCD"; public static final String FIELD_NAME_TAMURA = "featureTAMURA"; public static final String FIELD_NAME_GABOR = "featureGabor"; public static final String FIELD_NAME_SIFT = "featureSift"; public static final String FIELD_NAME_SIFT_LOCAL_FEATURE_HISTOGRAM = "featureSiftHistogram"; public static final String FIELD_NAME_SIFT_LOCAL_FEATURE_HISTOGRAM_VISUAL_WORDS = "featureSiftHistogramVWords"; public static final String FIELD_NAME_IDENTIFIER = "descriptorImageIdentifier"; public static final String FIELD_NAME_CEDD_FAST = "featureCEDDfast"; public static final String FIELD_NAME_COLORLAYOUT_FAST = "featureColorLayoutfast"; public static final String FIELD_NAME_SURF = "featureSurf"; public static final String FIELD_NAME_SURF_LOCAL_FEATURE_HISTOGRAM = "featureSURFHistogram"; public static final String FIELD_NAME_SURF_LOCAL_FEATURE_HISTOGRAM_VISUAL_WORDS = "featureSurfHistogramVWords"; public static final String FIELD_NAME_MSER_LOCAL_FEATURE_HISTOGRAM = "featureMSERHistogram"; public static final String FIELD_NAME_MSER_LOCAL_FEATURE_HISTOGRAM_VISUAL_WORDS = "featureMSERHistogramVWords"; public static final String FIELD_NAME_MSER = "featureMSER"; public static final String FIELD_NAME_BASIC_FEATURES = "featureBasic"; public static final String FIELD_NAME_JPEGCOEFFS = "featureJpegCoeffs"; /** * Creates a new Lucene document from a BufferedImage. The identifier can be used like an id * (e.g. the file name or the url of the image) * * @param image the image to index. Cannot be NULL. * @param identifier an id for the image, for instance the filename or an URL. Can be NULL. * @return a Lucene Document containing the indexed image. */ public Document createDocument(BufferedImage image, String identifier); /** * Creates a new Lucene document from an InputStream. The identifier can be used like an id * (e.g. the file name or the url of the image) * * @param image the image to index. Cannot be NULL. * @param identifier an id for the image, for instance the filename or an URL. Can be NULL. * @return a Lucene Document containing the indexed image. * @throws IOException in case the image cannot be retrieved from the InputStream */ public Document createDocument(InputStream image, String identifier) throws IOException; }
从接口的源代码可以看出,提供了两个方法,名字都叫createDocument(),只是参数不一样,一个是从BufferedImage,另一个是从InputStream。
此外,定义了很多的字符串。
AbstractDocumentBuilder
/* * This file is part of the LIRe project: http://www.semanticmetadata.net/lire * LIRe is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * LIRe is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with LIRe; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * We kindly ask you to refer the following paper in any publication mentioning Lire: * * Lux Mathias, Savvas A. Chatzichristofis. Lire: Lucene Image Retrieval 鈥� * An Extensible Java CBIR Library. In proceedings of the 16th ACM International * Conference on Multimedia, pp. 1085-1088, Vancouver, Canada, 2008 * * http://doi.acm.org/10.1145/1459359.1459577 * * Copyright statement: * -------------------- * (c) 2002-2011 by Mathias Lux ([email protected]) * http://www.semanticmetadata.net/lire */ package net.semanticmetadata.lire; import org.apache.lucene.document.Document; import javax.imageio.ImageIO; import java.awt.image.BufferedImage; import java.io.IOException; import java.io.InputStream; /** * Abstract DocumentBuilder, which uses javax.imageio.ImageIO to create a BufferedImage * from an InputStream. * <p/> * This file is part of the Caliph and Emir project: http://www.SemanticMetadata.net * <br>Date: 31.01.2006 * <br>Time: 23:07:39 * * @author Mathias Lux, [email protected] */ public abstract class AbstractDocumentBuilder implements DocumentBuilder { /** * Creates a new Lucene document from an InputStream. The identifier can be used like an id * (e.g. the file name or the url of the image). This is a simple implementation using * javax.imageio.ImageIO * * @param image the image to index. Please note that * @param identifier an id for the image, for instance the filename or an URL. * @return a Lucene Document containing the indexed image. * @see javax.imageio.ImageIO */ public Document createDocument(InputStream image, String identifier) throws IOException { assert (image != null); BufferedImage bufferedImage = ImageIO.read(image); return createDocument(bufferedImage, identifier); } }
从抽象类的定义可以看出,只有一个createDocument(InputStream image, String identifier),里面调用了createDocument(BufferedImage image, String identifier)。
其实说白了,就是把接口的那两个函数合成了一个函数。
DocumentBuilderFactory
/* * This file is part of the LIRe project: http://www.semanticmetadata.net/lire * LIRe is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * LIRe is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with LIRe; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * We kindly ask you to refer the following paper in any publication mentioning Lire: * * Lux Mathias, Savvas A. Chatzichristofis. Lire: Lucene Image Retrieval 鈥� * An Extensible Java CBIR Library. In proceedings of the 16th ACM International * Conference on Multimedia, pp. 1085-1088, Vancouver, Canada, 2008 * * http://doi.acm.org/10.1145/1459359.1459577 * * Copyright statement: * ~~~~~~~~~~~~~~~~~~~~ * (c) 2002-2011 by Mathias Lux ([email protected]) * http://www.semanticmetadata.net/lire */ package net.semanticmetadata.lire; import net.semanticmetadata.lire.imageanalysis.*; import net.semanticmetadata.lire.impl.ChainedDocumentBuilder; import net.semanticmetadata.lire.impl.CorrelogramDocumentBuilder; import net.semanticmetadata.lire.impl.GenericDocumentBuilder; import net.semanticmetadata.lire.impl.GenericFastDocumentBuilder; /** * Use DocumentBuilderFactory to create a DocumentBuilder, which * will create Lucene Documents from images. <br/> * This file is part of the Caliph and Emir project: http://www.SemanticMetadata.net * <br>Date: 31.01.2006 * <br>Time: 23:00:32 * * @author Mathias Lux, [email protected] */ public class DocumentBuilderFactory { /** * Creates a simple version of a DocumentBuilder. In this case the * {@link net.semanticmetadata.lire.imageanalysis.CEDD} is used as a feature * * @return a simple and efficient DocumentBuilder. * @see net.semanticmetadata.lire.imageanalysis.CEDD */ public static DocumentBuilder getDefaultDocumentBuilder() { return new GenericFastDocumentBuilder(CEDD.class, DocumentBuilder.FIELD_NAME_CEDD); } /** * Creates a simple version of a DocumentBuilder using the MPEG/-7 visual features features * all available descriptors are used. * * @return a fully featured DocumentBuilder. * @see net.semanticmetadata.lire.imageanalysis.ColorLayout * @see net.semanticmetadata.lire.imageanalysis.EdgeHistogram * @see net.semanticmetadata.lire.imageanalysis.ScalableColor * @deprecated Use ChainedDocumentBuilder instead */ public static DocumentBuilder getExtensiveDocumentBuilder() { ChainedDocumentBuilder cb = new ChainedDocumentBuilder(); cb.addBuilder(DocumentBuilderFactory.getColorLayoutBuilder()); cb.addBuilder(DocumentBuilderFactory.getEdgeHistogramBuilder()); cb.addBuilder(DocumentBuilderFactory.getScalableColorBuilder()); return cb; } /** * Creates a fast (byte[] based) version of the MPEG-7 ColorLayout document builder. * * @return the document builder. */ public static DocumentBuilder getColorLayoutBuilder() { return new GenericFastDocumentBuilder(ColorLayout.class, DocumentBuilder.FIELD_NAME_COLORLAYOUT); } /** * Creates a fast (byte[] based) version of the MPEG-7 EdgeHistogram document builder. * * @return the document builder. */ public static DocumentBuilder getEdgeHistogramBuilder() { return new GenericFastDocumentBuilder(EdgeHistogram.class, DocumentBuilder.FIELD_NAME_EDGEHISTOGRAM); } /** * Creates a fast (byte[] based) version of the MPEG-7 ColorLayout document builder. * * @return the document builder. */ public static DocumentBuilder getScalableColorBuilder() { return new GenericFastDocumentBuilder(ScalableColor.class, DocumentBuilder.FIELD_NAME_SCALABLECOLOR); } /** * Creates a simple version of a DocumentBuilder using ScalableColor. * * @return a fully featured DocumentBuilder. * @see net.semanticmetadata.lire.imageanalysis.ScalableColor * @deprecated Use ColorHistogram and the respective factory methods to get it instead */ public static DocumentBuilder getColorOnlyDocumentBuilder() { return DocumentBuilderFactory.getScalableColorBuilder(); } /** * Creates a simple version of a DocumentBuilder using the ColorLayout feature. Don't use this method any more but * use the respective feature bound method instead. * * @return a simple and fast DocumentBuilder. * @see net.semanticmetadata.lire.imageanalysis.ColorLayout * @deprecated use MPEG-7 feature ColorLayout or CEDD, which are both really fast. */ public static DocumentBuilder getFastDocumentBuilder() { return DocumentBuilderFactory.getColorLayoutBuilder(); } /** * Creates a DocumentBuilder for the AutoColorCorrelation feature. Note that the extraction of this feature * is especially slow! So use it only on small images! Images that do not fit in a 200x200 pixel box are * resized by the document builder to ensure shorter processing time. See * {@link net.semanticmetadata.lire.imageanalysis.AutoColorCorrelogram} for more information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created AutoCorrelation feature DocumentBuilder. */ public static DocumentBuilder getAutoColorCorrelogramDocumentBuilder() { return new GenericDocumentBuilder(AutoColorCorrelogram.class, DocumentBuilder.FIELD_NAME_AUTOCOLORCORRELOGRAM, GenericDocumentBuilder.Mode.Fast); } /** * Creates a DocumentBuilder for the AutoColorCorrelation feature. Note that the extraction of this feature * is especially slow, but this is a more fast, but less accurate settings version! * Images that do not fit in a defined bounding box they are * resized by the document builder to ensure shorter processing time. See * {@link net.semanticmetadata.lire.imageanalysis.AutoColorCorrelogram} for more information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created AutoCorrelation feature DocumentBuilder. * @deprecated Use #getAutoColorCorrelogramDocumentBuilder instead. */ public static DocumentBuilder getFastAutoColorCorrelationDocumentBuilder() { return new CorrelogramDocumentBuilder(AutoColorCorrelogram.Mode.SuperFast); } /** * Creates a DocumentBuilder for the CEDD feature. See * {@link net.semanticmetadata.lire.imageanalysis.CEDD} for more information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created CEDD feature DocumentBuilder. */ public static DocumentBuilder getCEDDDocumentBuilder() { // return new CEDDDocumentBuilder(); return new GenericFastDocumentBuilder(CEDD.class, DocumentBuilder.FIELD_NAME_CEDD); } /** * Creates a DocumentBuilder for the FCTH feature. See * {@link net.semanticmetadata.lire.imageanalysis.FCTH} for more information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created FCTH feature DocumentBuilder. */ public static DocumentBuilder getFCTHDocumentBuilder() { return new GenericDocumentBuilder(FCTH.class, DocumentBuilder.FIELD_NAME_FCTH, GenericDocumentBuilder.Mode.Fast); } /** * Creates a DocumentBuilder for the JCD feature. See * {@link net.semanticmetadata.lire.imageanalysis.JCD} for more information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created DocumentBuilder */ public static DocumentBuilder getJCDDocumentBuilder() { return new GenericFastDocumentBuilder(JCD.class, DocumentBuilder.FIELD_NAME_JCD); } /** * Creates a DocumentBuilder for the JpegCoefficientHistogram feature. See * {@link net.semanticmetadata.lire.imageanalysis.JpegCoefficientHistogram} for more * information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created DocumentBuilder */ public static DocumentBuilder getJpegCoefficientHistogramDocumentBuilder() { return new GenericDocumentBuilder(JpegCoefficientHistogram.class, DocumentBuilder.FIELD_NAME_JPEGCOEFFS, GenericDocumentBuilder.Mode.Fast); } /** * Creates a DocumentBuilder for simple RGB color histograms. See * {@link net.semanticmetadata.lire.imageanalysis.SimpleColorHistogram} for more * information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created feature DocumentBuilder. */ public static DocumentBuilder getColorHistogramDocumentBuilder() { return new GenericDocumentBuilder(SimpleColorHistogram.class, DocumentBuilder.FIELD_NAME_COLORHISTOGRAM, GenericDocumentBuilder.Mode.Fast); } /** * Creates a DocumentBuilder for three Tamura features. See * {@link net.semanticmetadata.lire.imageanalysis.Tamura} for more * information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created Tamura feature DocumentBuilder. */ public static DocumentBuilder getTamuraDocumentBuilder() { return new GenericFastDocumentBuilder(Tamura.class, DocumentBuilder.FIELD_NAME_TAMURA); } /** * Creates a DocumentBuilder for the Gabor feature. See * {@link net.semanticmetadata.lire.imageanalysis.Gabor} for more * information on the image feature. * Be sure to use the same options for the ImageSearcher as you used for the DocumentBuilder. * * @return the created Tamura feature DocumentBuilder. */ public static DocumentBuilder getGaborDocumentBuilder() { return new GenericFastDocumentBuilder(Gabor.class, DocumentBuilder.FIELD_NAME_GABOR); } /** * Creates and returns a DocumentBuilder, which contains all available features. For * AutoColorCorrelogram the getAutoColorCorrelogramDocumentBuilder() is used. Therefore * it is compatible with the respective Searcher. * * @return a combination of all available features. */ public static DocumentBuilder getFullDocumentBuilder() { ChainedDocumentBuilder cdb = new ChainedDocumentBuilder(); cdb.addBuilder(DocumentBuilderFactory.getExtensiveDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getAutoColorCorrelogramDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getCEDDDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getFCTHDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getColorHistogramDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getTamuraDocumentBuilder()); cdb.addBuilder(DocumentBuilderFactory.getGaborDocumentBuilder()); return cdb; } }
DocumentBuilderFactory是用于创建DocumentBuilder的。里面有各种get****DocumentBuilder()。其中以下2种是几个DocumentBuilder的合集:
getExtensiveDocumentBuilder():使用MPEG-7中的ColorLayout,EdgeHistogram,ScalableColor
getFullDocumentBuilder():使用所有的DocumentBuilder