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Example 6 with LiblinearAdapter

use of org.dkpro.tc.ml.liblinear.LiblinearAdapter in project dkpro-tc by dkpro.

the class LiblinearSaveAndLoadModelDocumentSingleLabelTest method documentGetParameterSpaceSingleLabel.

private ParameterSpace documentGetParameterSpaceSingleLabel(boolean useParametrizedArgs) throws ResourceInitializationException {
    Map<String, Object> dimReaders = new HashMap<String, Object>();
    CollectionReaderDescription readerTrain = CollectionReaderFactory.createReaderDescription(FolderwiseDataReader.class, FolderwiseDataReader.PARAM_SOURCE_LOCATION, documentTrainFolder, FolderwiseDataReader.PARAM_LANGUAGE, "en", FolderwiseDataReader.PARAM_PATTERNS, "*/*.txt");
    dimReaders.put(DIM_READER_TRAIN, readerTrain);
    Dimension<TcFeatureSet> dimFeatureSets = Dimension.create(DIM_FEATURE_SET, new TcFeatureSet(TcFeatureFactory.create(TokenRatioPerDocument.class), TcFeatureFactory.create(WordNGram.class, WordNGram.PARAM_NGRAM_USE_TOP_K, 50, WordNGram.PARAM_NGRAM_MIN_N, 1, WordNGram.PARAM_NGRAM_MAX_N, 3)));
    ParameterSpace pSpace;
    if (useParametrizedArgs) {
        Map<String, Object> config = new HashMap<>();
        config.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LiblinearAdapter(), "-s", "6" });
        config.put(DIM_DATA_WRITER, new LiblinearAdapter().getDataWriterClass().getName());
        config.put(DIM_FEATURE_USE_SPARSE, new LiblinearAdapter().useSparseFeatures());
        Dimension<Map<String, Object>> mlas = Dimension.createBundle("config", config);
        pSpace = new ParameterSpace(Dimension.createBundle("readers", dimReaders), Dimension.create(DIM_LEARNING_MODE, LM_SINGLE_LABEL), Dimension.create(DIM_FEATURE_MODE, FM_DOCUMENT), mlas, dimFeatureSets);
    } else {
        Map<String, Object> config = new HashMap<>();
        config.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LiblinearAdapter(), "-s", "6" });
        config.put(DIM_DATA_WRITER, new LiblinearAdapter().getDataWriterClass().getName());
        config.put(DIM_FEATURE_USE_SPARSE, new LiblinearAdapter().useSparseFeatures());
        Dimension<Map<String, Object>> mlas = Dimension.createBundle("config", config);
        pSpace = new ParameterSpace(Dimension.createBundle("readers", dimReaders), Dimension.create(DIM_LEARNING_MODE, LM_SINGLE_LABEL), Dimension.create(DIM_FEATURE_MODE, FM_DOCUMENT), dimFeatureSets, mlas);
    }
    return pSpace;
}
Also used : CollectionReaderDescription(org.apache.uima.collection.CollectionReaderDescription) HashMap(java.util.HashMap) ParameterSpace(org.dkpro.lab.task.ParameterSpace) TcFeatureSet(org.dkpro.tc.api.features.TcFeatureSet) LiblinearAdapter(org.dkpro.tc.ml.liblinear.LiblinearAdapter) HashMap(java.util.HashMap) Map(java.util.Map)

Example 7 with LiblinearAdapter

use of org.dkpro.tc.ml.liblinear.LiblinearAdapter in project dkpro-tc by dkpro.

the class MultiRegressionWekaLibsvmLiblinear method getParameterSpace.

public static ParameterSpace getParameterSpace() throws ResourceInitializationException {
    // configure training and test data reader dimension
    // train/test will use both, while cross-validation will only use the train part
    // The reader is also responsible for setting the labels/outcome on all
    // documents/instances it creates.
    Map<String, Object> dimReaders = new HashMap<String, Object>();
    CollectionReaderDescription readerTrain = CollectionReaderFactory.createReaderDescription(LinewiseTextOutcomeReader.class, LinewiseTextOutcomeReader.PARAM_OUTCOME_INDEX, 0, LinewiseTextOutcomeReader.PARAM_TEXT_INDEX, 1, LinewiseTextOutcomeReader.PARAM_SOURCE_LOCATION, "src/main/resources/data/essays/train/essay_train.txt", LinewiseTextOutcomeReader.PARAM_LANGUAGE, "en");
    dimReaders.put(DIM_READER_TRAIN, readerTrain);
    CollectionReaderDescription readerTest = CollectionReaderFactory.createReaderDescription(LinewiseTextOutcomeReader.class, LinewiseTextOutcomeReader.PARAM_OUTCOME_INDEX, 0, LinewiseTextOutcomeReader.PARAM_TEXT_INDEX, 1, LinewiseTextOutcomeReader.PARAM_SOURCE_LOCATION, "src/main/resources/data/essays/test/essay_test.txt", LinewiseTextOutcomeReader.PARAM_LANGUAGE, "en");
    dimReaders.put(DIM_READER_TEST, readerTest);
    Map<String, Object> xgboostConfig = new HashMap<>();
    xgboostConfig.put(DIM_CLASSIFICATION_ARGS, new Object[] { new XgboostAdapter(), "booster=gbtree", "reg:linear" });
    xgboostConfig.put(DIM_DATA_WRITER, new XgboostAdapter().getDataWriterClass().getName());
    xgboostConfig.put(DIM_FEATURE_USE_SPARSE, new XgboostAdapter().useSparseFeatures());
    Map<String, Object> liblinearConfig = new HashMap<>();
    liblinearConfig.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LiblinearAdapter(), "-s", "6" });
    liblinearConfig.put(DIM_DATA_WRITER, new LiblinearAdapter().getDataWriterClass().getName());
    liblinearConfig.put(DIM_FEATURE_USE_SPARSE, new LiblinearAdapter().useSparseFeatures());
    Map<String, Object> libsvmConfig = new HashMap<>();
    libsvmConfig.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LibsvmAdapter(), "-s", "3", "-c", "10" });
    libsvmConfig.put(DIM_DATA_WRITER, new LibsvmAdapter().getDataWriterClass().getName());
    libsvmConfig.put(DIM_FEATURE_USE_SPARSE, new LibsvmAdapter().useSparseFeatures());
    Map<String, Object> wekaConfig = new HashMap<>();
    wekaConfig.put(DIM_CLASSIFICATION_ARGS, new Object[] { new WekaAdapter(), LinearRegression.class.getName() });
    wekaConfig.put(DIM_DATA_WRITER, new WekaAdapter().getDataWriterClass().getName());
    wekaConfig.put(DIM_FEATURE_USE_SPARSE, new WekaAdapter().useSparseFeatures());
    Dimension<Map<String, Object>> mlas = Dimension.createBundle("config", xgboostConfig, liblinearConfig, libsvmConfig, wekaConfig);
    Dimension<TcFeatureSet> dimFeatureSets = Dimension.create(DIM_FEATURE_SET, new TcFeatureSet(TcFeatureFactory.create(SentenceRatioPerDocument.class), TcFeatureFactory.create(LengthFeatureNominal.class), TcFeatureFactory.create(TokenRatioPerDocument.class)));
    ParameterSpace pSpace = new ParameterSpace(Dimension.createBundle("readers", dimReaders), Dimension.create(DIM_LEARNING_MODE, LM_REGRESSION), Dimension.create(DIM_FEATURE_MODE, FM_DOCUMENT), dimFeatureSets, mlas);
    return pSpace;
}
Also used : HashMap(java.util.HashMap) TcFeatureSet(org.dkpro.tc.api.features.TcFeatureSet) LiblinearAdapter(org.dkpro.tc.ml.liblinear.LiblinearAdapter) WekaAdapter(org.dkpro.tc.ml.weka.WekaAdapter) CollectionReaderDescription(org.apache.uima.collection.CollectionReaderDescription) ParameterSpace(org.dkpro.lab.task.ParameterSpace) LibsvmAdapter(org.dkpro.tc.ml.libsvm.LibsvmAdapter) XgboostAdapter(org.dkpro.tc.ml.xgboost.XgboostAdapter) LinearRegression(weka.classifiers.functions.LinearRegression) HashMap(java.util.HashMap) Map(java.util.Map)

Example 8 with LiblinearAdapter

use of org.dkpro.tc.ml.liblinear.LiblinearAdapter in project dkpro-tc by dkpro.

the class LiblinearUnitDemo method getParameterSpace.

public static ParameterSpace getParameterSpace() throws ResourceInitializationException {
    // configure training and test data reader dimension
    Map<String, Object> dimReaders = new HashMap<String, Object>();
    CollectionReaderDescription readerTrain = CollectionReaderFactory.createReaderDescription(TeiReader.class, TeiReader.PARAM_LANGUAGE, "en", TeiReader.PARAM_SOURCE_LOCATION, corpusFilePathTrain, TeiReader.PARAM_PATTERNS, new String[] { INCLUDE_PREFIX + "*.xml", INCLUDE_PREFIX + "*.xml.gz" });
    dimReaders.put(DIM_READER_TRAIN, readerTrain);
    CollectionReaderDescription readerTest = CollectionReaderFactory.createReaderDescription(TeiReader.class, TeiReader.PARAM_LANGUAGE, "en", TeiReader.PARAM_SOURCE_LOCATION, corpusFilePathTrain, TeiReader.PARAM_PATTERNS, new String[] { INCLUDE_PREFIX + "*.xml", INCLUDE_PREFIX + "*.xml.gz" });
    dimReaders.put(DIM_READER_TEST, readerTest);
    Dimension<TcFeatureSet> dimFeatureSets = Dimension.create(DIM_FEATURE_SET, new TcFeatureSet(TcFeatureFactory.create(TokenRatioPerDocument.class), TcFeatureFactory.create(CharacterNGram.class, CharacterNGram.PARAM_NGRAM_USE_TOP_K, 50)));
    Map<String, Object> config = new HashMap<>();
    config.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LiblinearAdapter() });
    config.put(DIM_DATA_WRITER, new LiblinearAdapter().getDataWriterClass().getName());
    config.put(DIM_FEATURE_USE_SPARSE, new LiblinearAdapter().useSparseFeatures());
    Dimension<Map<String, Object>> mlas = Dimension.createBundle("config", config);
    ParameterSpace pSpace = new ParameterSpace(Dimension.createBundle("readers", dimReaders), Dimension.create(DIM_LEARNING_MODE, LM_SINGLE_LABEL), Dimension.create(DIM_FEATURE_MODE, FM_UNIT), dimFeatureSets, mlas);
    return pSpace;
}
Also used : CollectionReaderDescription(org.apache.uima.collection.CollectionReaderDescription) HashMap(java.util.HashMap) ParameterSpace(org.dkpro.lab.task.ParameterSpace) TcFeatureSet(org.dkpro.tc.api.features.TcFeatureSet) LiblinearAdapter(org.dkpro.tc.ml.liblinear.LiblinearAdapter) HashMap(java.util.HashMap) Map(java.util.Map)

Example 9 with LiblinearAdapter

use of org.dkpro.tc.ml.liblinear.LiblinearAdapter in project dkpro-tc by dkpro.

the class LiblinearSaveAndLoadModelDocumentSingleLabelTest method unitGetParameterSpaceSingleLabel.

public static ParameterSpace unitGetParameterSpaceSingleLabel() throws ResourceInitializationException {
    // configure training and test data reader dimension
    Map<String, Object> dimReaders = new HashMap<String, Object>();
    CollectionReaderDescription readerTrain = CollectionReaderFactory.createReaderDescription(BrownCorpusReader.class, BrownCorpusReader.PARAM_LANGUAGE, "en", BrownCorpusReader.PARAM_SOURCE_LOCATION, unitTrainFolder, BrownCorpusReader.PARAM_PATTERNS, new String[] { INCLUDE_PREFIX + "a01.xml" });
    dimReaders.put(DIM_READER_TRAIN, readerTrain);
    Map<String, Object> config = new HashMap<>();
    config.put(DIM_CLASSIFICATION_ARGS, new Object[] { new LiblinearAdapter() });
    config.put(DIM_DATA_WRITER, new LiblinearAdapter().getDataWriterClass().getName());
    config.put(DIM_FEATURE_USE_SPARSE, new LiblinearAdapter().useSparseFeatures());
    Dimension<Map<String, Object>> mlas = Dimension.createBundle("config", config);
    Dimension<TcFeatureSet> dimFeatureSets = Dimension.create(DIM_FEATURE_SET, new TcFeatureSet(TcFeatureFactory.create(TokenRatioPerDocument.class), TcFeatureFactory.create(CharacterNGram.class, CharacterNGram.PARAM_NGRAM_LOWER_CASE, false)));
    ParameterSpace pSpace = new ParameterSpace(Dimension.createBundle("readers", dimReaders), Dimension.create(DIM_LEARNING_MODE, LM_SINGLE_LABEL), Dimension.create(DIM_FEATURE_MODE, FM_UNIT), dimFeatureSets, mlas);
    return pSpace;
}
Also used : CollectionReaderDescription(org.apache.uima.collection.CollectionReaderDescription) HashMap(java.util.HashMap) ParameterSpace(org.dkpro.lab.task.ParameterSpace) TcFeatureSet(org.dkpro.tc.api.features.TcFeatureSet) LiblinearAdapter(org.dkpro.tc.ml.liblinear.LiblinearAdapter) HashMap(java.util.HashMap) Map(java.util.Map)

Aggregations

HashMap (java.util.HashMap)9 CollectionReaderDescription (org.apache.uima.collection.CollectionReaderDescription)9 ParameterSpace (org.dkpro.lab.task.ParameterSpace)9 TcFeatureSet (org.dkpro.tc.api.features.TcFeatureSet)9 LiblinearAdapter (org.dkpro.tc.ml.liblinear.LiblinearAdapter)9 Map (java.util.Map)8 LibsvmAdapter (org.dkpro.tc.ml.libsvm.LibsvmAdapter)2 WekaAdapter (org.dkpro.tc.ml.weka.WekaAdapter)2 XgboostAdapter (org.dkpro.tc.ml.xgboost.XgboostAdapter)2 ArrayList (java.util.ArrayList)1 List (java.util.List)1 LinearRegression (weka.classifiers.functions.LinearRegression)1 SMO (weka.classifiers.functions.SMO)1 PolyKernel (weka.classifiers.functions.supportVector.PolyKernel)1