/** * Computes average class values for each attribute and value * * @throws Exception */ private void computeAverageClassValues() throws Exception { double totalCounts, sum; M5Instance instance; double[] counts; double[][] avgClassValues = new double[getInputFormat().numAttributes()][0]; m_Indices = new int[getInputFormat().numAttributes()][0]; for (int j = 0; j < getInputFormat().numAttributes(); j++) { M5Attribute att = getInputFormat().attribute(j); if (att.isNominal()) { avgClassValues[j] = new double[att.numValues()]; counts = new double[att.numValues()]; for (int i = 0; i < getInputFormat().numInstances(); i++) { instance = getInputFormat().instance(i); if (!instance.classIsMissing() && (!instance.isMissing(j))) { counts[(int) instance.value(j)] += instance.weight(); avgClassValues[j][(int) instance.value(j)] += instance.weight() * instance.classValue(); } } sum = M5StaticUtils.sum(avgClassValues[j]); totalCounts = M5StaticUtils.sum(counts); if (M5StaticUtils.gr(totalCounts, 0)) { for (int k = 0; k < att.numValues(); k++) { if (M5StaticUtils.gr(counts[k], 0)) { avgClassValues[j][k] /= (double) counts[k]; } else { avgClassValues[j][k] = sum / (double) totalCounts; } } } m_Indices[j] = M5StaticUtils.sort(avgClassValues[j]); } } }
/** * Parses the options for this object. Valid options are: * * <p>-N <br> * If binary attributes are to be coded as nominal ones. * * <p> * * @param options the list of options as an array of strings * @exception Exception if an option is not supported */ public void setOptions(String[] options) throws Exception { setBinaryAttributesNominal(M5StaticUtils.getFlag('N', options)); if (getInputFormat() != null) { setInputFormat(getInputFormat()); } }
/** Display a representation of this estimator */ public String toString() { String result = m_NumValues + " Normal Kernels. \nStandardDev = " + M5StaticUtils.doubleToString(m_StandardDev, 6, 4) + " Precision = " + m_Precision; if (m_NumValues == 0) { result += " \nMean = 0"; } else { result += " \nMeans ="; for (int i = 0; i < m_NumValues; i++) { result += " " + m_Values[i]; } if (!m_AllWeightsOne) { result += "\nWeights = "; for (int i = 0; i < m_NumValues; i++) { result += " " + m_Weights[i]; } } } return result + "\n"; }
/** * Method for testing filters ability to process multiple batches. * * @param options should contain the following arguments:<br> * -i (first) input file <br> * -o (first) output file <br> * -r (second) input file <br> * -s (second) output file <br> * -c class_index <br> * or -h for help on options * @exception Exception if something goes wrong or the user requests help on command options */ public static void batchFilterFile(NominalToBinaryFilter filter, String[] options) throws Exception { M5Instances firstData = null; M5Instances secondData = null; Reader firstInput = null; Reader secondInput = null; PrintWriter firstOutput = null; PrintWriter secondOutput = null; boolean helpRequest; try { helpRequest = M5StaticUtils.getFlag('h', options); String fileName = M5StaticUtils.getOption('i', options); if (fileName.length() != 0) { firstInput = new BufferedReader(new FileReader(fileName)); } else { throw new Exception("No first input file given.\n"); } fileName = M5StaticUtils.getOption('r', options); if (fileName.length() != 0) { secondInput = new BufferedReader(new FileReader(fileName)); } else { throw new Exception("No second input file given.\n"); } fileName = M5StaticUtils.getOption('o', options); if (fileName.length() != 0) { firstOutput = new PrintWriter(new FileOutputStream(fileName)); } else { firstOutput = new PrintWriter(System.out); } fileName = M5StaticUtils.getOption('s', options); if (fileName.length() != 0) { secondOutput = new PrintWriter(new FileOutputStream(fileName)); } else { secondOutput = new PrintWriter(System.out); } String classIndex = M5StaticUtils.getOption('c', options); if (filter instanceof NominalToBinaryFilter) { ((NominalToBinaryFilter) filter).setOptions(options); } M5StaticUtils.checkForRemainingOptions(options); if (helpRequest) { throw new Exception("Help requested.\n"); } firstData = new M5Instances(firstInput, 1); secondData = new M5Instances(secondInput, 1); if (!secondData.equalHeaders(firstData)) { throw new Exception("Input file formats differ.\n"); } if (classIndex.length() != 0) { if (classIndex.equals("first")) { firstData.setClassIndex(0); secondData.setClassIndex(0); } else if (classIndex.equals("last")) { firstData.setClassIndex(firstData.numAttributes() - 1); secondData.setClassIndex(secondData.numAttributes() - 1); } else { firstData.setClassIndex(Integer.parseInt(classIndex) - 1); secondData.setClassIndex(Integer.parseInt(classIndex) - 1); } } } catch (Exception ex) { String filterOptions = ""; // Output the error and also the valid options if (filter instanceof NominalToBinaryFilter) { filterOptions += "\nFilter options:\n\n"; Enumeration enume = ((NominalToBinaryFilter) filter).listOptions(); while (enume.hasMoreElements()) { Information option = (Information) enume.nextElement(); filterOptions += option.synopsis() + '\n' + option.description() + "\n"; } } String genericOptions = "\nGeneral options:\n\n" + "-h\n" + "\tGet help on available options.\n" + "-i <filename>\n" + "\tThe file containing first input instances.\n" + "-o <filename>\n" + "\tThe file first output instances will be written to.\n" + "-r <filename>\n" + "\tThe file containing second input instances.\n" + "-s <filename>\n" + "\tThe file second output instances will be written to.\n" + "-c <class index>\n" + "\tThe number of the attribute to use as the class.\n" + "\t\"first\" and \"last\" are also valid entries.\n" + "\tIf not supplied then no class is assigned.\n"; throw new Exception('\n' + ex.getMessage() + filterOptions + genericOptions); } boolean printedHeader = false; if (filter.setInputFormat(firstData)) { firstOutput.println(filter.getOutputFormat().toString()); printedHeader = true; } // Pass all the instances to the filter while (firstData.readInstance(firstInput)) { if (filter.input(firstData.instance(0))) { if (!printedHeader) { throw new Error("Filter didn't return true from setInputFormat() " + "earlier!"); } firstOutput.println(filter.output().toString()); } firstData.delete(0); } // Say that input has finished, and print any pending output instances if (filter.batchFinished()) { if (!printedHeader) { firstOutput.println(filter.getOutputFormat().toString()); } while (filter.numPendingOutput() > 0) { firstOutput.println(filter.output().toString()); } } if (firstOutput != null) { firstOutput.close(); } printedHeader = false; if (filter.isOutputFormatDefined()) { secondOutput.println(filter.getOutputFormat().toString()); printedHeader = true; } // Pass all the second instances to the filter while (secondData.readInstance(secondInput)) { if (filter.input(secondData.instance(0))) { if (!printedHeader) { throw new Error("Filter didn't return true from" + " isOutputFormatDefined() earlier!"); } secondOutput.println(filter.output().toString()); } secondData.delete(0); } // Say that input has finished, and print any pending output instances if (filter.batchFinished()) { if (!printedHeader) { secondOutput.println(filter.getOutputFormat().toString()); } while (filter.numPendingOutput() > 0) { secondOutput.println(filter.output().toString()); } } if (secondOutput != null) { secondOutput.close(); } }
/** * Method for testing filters. * * @param options should contain the following arguments: <br> * -i input_file <br> * -o output_file <br> * -c class_index <br> * or -h for help on options * @exception Exception if something goes wrong or the user requests help on command options */ public static void filterFile(NominalToBinaryFilter filter, String[] options) throws Exception { boolean debug = false; M5Instances data = null; Reader input = null; PrintWriter output = null; boolean helpRequest; try { helpRequest = M5StaticUtils.getFlag('h', options); if (M5StaticUtils.getFlag('d', options)) { debug = true; } String infileName = M5StaticUtils.getOption('i', options); String outfileName = M5StaticUtils.getOption('o', options); String classIndex = M5StaticUtils.getOption('c', options); if (filter instanceof NominalToBinaryFilter) { ((NominalToBinaryFilter) filter).setOptions(options); } M5StaticUtils.checkForRemainingOptions(options); if (helpRequest) { throw new Exception("Help requested.\n"); } if (infileName.length() != 0) { input = new BufferedReader(new FileReader(infileName)); } else { input = new BufferedReader(new InputStreamReader(System.in)); } if (outfileName.length() != 0) { output = new PrintWriter(new FileOutputStream(outfileName)); } else { output = new PrintWriter(System.out); } data = new M5Instances(input, 1); if (classIndex.length() != 0) { if (classIndex.equals("first")) { data.setClassIndex(0); } else if (classIndex.equals("last")) { data.setClassIndex(data.numAttributes() - 1); } else { data.setClassIndex(Integer.parseInt(classIndex) - 1); } } } catch (Exception ex) { String filterOptions = ""; // Output the error and also the valid options if (filter instanceof NominalToBinaryFilter) { filterOptions += "\nFilter options:\n\n"; Enumeration enuma = ((NominalToBinaryFilter) filter).listOptions(); while (enuma.hasMoreElements()) { Information option = (Information) enuma.nextElement(); filterOptions += option.synopsis() + '\n' + option.description() + "\n"; } } String genericOptions = "\nGeneral options:\n\n" + "-h\n" + "\tGet help on available options.\n" + "\t(use -b -h for help on batch mode.)\n" + "-i <file>\n" + "\tThe name of the file containing input instances.\n" + "\tIf not supplied then instances will be read from stdin.\n" + "-o <file>\n" + "\tThe name of the file output instances will be written to.\n" + "\tIf not supplied then instances will be written to stdout.\n" + "-c <class index>\n" + "\tThe number of the attribute to use as the class.\n" + "\t\"first\" and \"last\" are also valid entries.\n" + "\tIf not supplied then no class is assigned.\n"; throw new Exception('\n' + ex.getMessage() + filterOptions + genericOptions); } if (debug) { System.err.println("Setting input format"); } boolean printedHeader = false; if (filter.setInputFormat(data)) { if (debug) { System.err.println("Getting output format"); } output.println(filter.getOutputFormat().toString()); printedHeader = true; } // Pass all the instances to the filter while (data.readInstance(input)) { if (debug) { System.err.println("Input instance to filter"); } if (filter.input(data.instance(0))) { if (debug) { System.err.println("Filter said collect immediately"); } if (!printedHeader) { throw new Error("Filter didn't return true from setInputFormat() " + "earlier!"); } if (debug) { System.err.println("Getting output instance"); } output.println(filter.output().toString()); } data.delete(0); } // Say that input has finished, and print any pending output instances if (debug) { System.err.println("Setting end of batch"); } if (filter.batchFinished()) { if (debug) { System.err.println("Filter said collect output"); } if (!printedHeader) { if (debug) { System.err.println("Getting output format"); } output.println(filter.getOutputFormat().toString()); } if (debug) { System.err.println("Getting output instance"); } while (filter.numPendingOutput() > 0) { output.println(filter.output().toString()); if (debug) { System.err.println("Getting output instance"); } } } if (debug) { System.err.println("Done"); } if (output != null) { output.close(); } }