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The Waikato Environment for Knowledge Analysis (WEKA), a machine learning workbench. This version represents the developer version, the "bleeding edge" of development, you could say. New functionality gets added to this version.

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/*
 *   This program 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 3 of the License, or
 *   (at your option) any later version.
 *
 *   This program 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 this program.  If not, see .
 */

/*
 *    InstanceQuery.java
 *    Copyright (C) 1999-2012 University of Waikato, Hamilton, New Zealand
 *
 */

package weka.experiment;

import java.io.File;
import java.sql.ResultSet;
import java.sql.ResultSetMetaData;
import java.sql.Time;
import java.util.ArrayList;
import java.util.Date;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;

import weka.core.Attribute;
import weka.core.DenseInstance;
import weka.core.Instance;
import weka.core.Instances;
import weka.core.Option;
import weka.core.OptionHandler;
import weka.core.RevisionUtils;
import weka.core.SparseInstance;
import weka.core.Utils;

/**
 * Convert the results of a database query into instances. The jdbc driver and
 * database to be used default to "jdbc.idbDriver" and
 * "jdbc:idb=experiments.prp". These may be changed by creating a java
 * properties file called DatabaseUtils.props in user.home or the current
 * directory. eg:
 * 

* *

 * jdbcDriver=jdbc.idbDriver
 * jdbcURL=jdbc:idb=experiments.prp
 * 
*

* * Command line use just outputs the instances to System.out. *

* * Valid options are: *

* *

 * -Q <query>
 *  SQL query to execute.
 * 
* *
 * -S
 *  Return sparse rather than normal instances.
 * 
* *
 * -U <username>
 *  The username to use for connecting.
 * 
* *
 * -P <password>
 *  The password to use for connecting.
 * 
* *
 * -D
 *  Enables debug output.
 * 
* * * * @author Len Trigg ([email protected]) * @version $Revision: 10203 $ */ public class InstanceQuery extends DatabaseUtils implements OptionHandler, InstanceQueryAdapter { /** for serialization */ static final long serialVersionUID = 718158370917782584L; /** Determines whether sparse data is created */ protected boolean m_CreateSparseData = false; /** Query to execute */ protected String m_Query = "SELECT * from ?"; /** the custom props file to use instead of default one. */ protected File m_CustomPropsFile = null; /** * Sets up the database drivers * * @throws Exception if an error occurs */ public InstanceQuery() throws Exception { super(); } /** * Returns an enumeration describing the available options *

* * @return an enumeration of all options */ @Override public Enumeration

* *

   * -Q <query>
   *  SQL query to execute.
   * 
* *
   * -S
   *  Return sparse rather than normal instances.
   * 
* *
   * -U <username>
   *  The username to use for connecting.
   * 
* *
   * -P <password>
   *  The password to use for connecting.
   * 
* *
   * -D
   *  Enables debug output.
   * 
* * * * @param options the list of options as an array of strings * @throws Exception if an option is not supported */ @Override public void setOptions(String[] options) throws Exception { String tmpStr; setSparseData(Utils.getFlag('S', options)); tmpStr = Utils.getOption('Q', options); if (tmpStr.length() != 0) { setQuery(tmpStr); } tmpStr = Utils.getOption('U', options); if (tmpStr.length() != 0) { setUsername(tmpStr); } tmpStr = Utils.getOption('P', options); if (tmpStr.length() != 0) { setPassword(tmpStr); } tmpStr = Utils.getOption("custom-props", options); if (tmpStr.length() == 0) { setCustomPropsFile(null); } else { setCustomPropsFile(new File(tmpStr)); } setDebug(Utils.getFlag('D', options)); } /** * Returns the tip text for this property * * @return tip text for this property suitable for displaying in the * explorer/experimenter gui */ public String queryTipText() { return "The SQL query to execute against the database."; } /** * Set the query to execute against the database * * @param q the query to execute */ public void setQuery(String q) { m_Query = q; } /** * Get the query to execute against the database * * @return the query */ public String getQuery() { return m_Query; } /** * Returns the tip text for this property * * @return tip text for this property suitable for displaying in the * explorer/experimenter gui */ public String sparseDataTipText() { return "Encode data as sparse instances."; } /** * Sets whether data should be encoded as sparse instances * * @param s true if data should be encoded as a set of sparse instances */ public void setSparseData(boolean s) { m_CreateSparseData = s; } /** * Gets whether data is to be returned as a set of sparse instances * * @return true if data is to be encoded as sparse instances */ @Override public boolean getSparseData() { return m_CreateSparseData; } /** * Sets the custom properties file to use. * * @param value the custom props file to load database parameters from, use * null or directory to disable custom properties. * @see #initialize(File) */ public void setCustomPropsFile(File value) { m_CustomPropsFile = value; initialize(m_CustomPropsFile); } /** * Returns the custom properties file in use, if any. * * @return the custom props file, null if none used */ public File getCustomPropsFile() { return m_CustomPropsFile; } /** * The tip text for this property. * * @return the tip text */ public String customPropsFileTipText() { return "The custom properties that the user can use to override the default ones."; } /** * Gets the current settings of InstanceQuery * * @return an array of strings suitable for passing to setOptions() */ @Override public String[] getOptions() { Vector options = new Vector(); options.add("-Q"); options.add(getQuery()); if (getSparseData()) { options.add("-S"); } if (!getUsername().equals("")) { options.add("-U"); options.add(getUsername()); } if (!getPassword().equals("")) { options.add("-P"); options.add(getPassword()); } if ((m_CustomPropsFile != null) && !m_CustomPropsFile.isDirectory()) { options.add("-custom-props"); options.add(m_CustomPropsFile.toString()); } if (getDebug()) { options.add("-D"); } return options.toArray(new String[options.size()]); } /** * Makes a database query using the query set through the -Q option to convert * a table into a set of instances * * @return the instances contained in the result of the query * @throws Exception if an error occurs */ public Instances retrieveInstances() throws Exception { return retrieveInstances(m_Query); } public static Instances retrieveInstances(InstanceQueryAdapter adapter, ResultSet rs) throws Exception { if (adapter.getDebug()) { System.err.println("Getting metadata..."); } ResultSetMetaData md = rs.getMetaData(); if (adapter.getDebug()) { System.err.println("Completed getting metadata..."); } // Determine structure of the instances int numAttributes = md.getColumnCount(); int[] attributeTypes = new int[numAttributes]; @SuppressWarnings("unchecked") Hashtable[] nominalIndexes = new Hashtable[numAttributes]; @SuppressWarnings("unchecked") ArrayList[] nominalStrings = new ArrayList[numAttributes]; for (int i = 1; i <= numAttributes; i++) { /* * switch (md.getColumnType(i)) { case Types.CHAR: case Types.VARCHAR: * case Types.LONGVARCHAR: case Types.BINARY: case Types.VARBINARY: case * Types.LONGVARBINARY: */ switch (adapter.translateDBColumnType(md.getColumnTypeName(i))) { case STRING: // System.err.println("String --> nominal"); attributeTypes[i - 1] = Attribute.NOMINAL; nominalIndexes[i - 1] = new Hashtable(); nominalStrings[i - 1] = new ArrayList(); break; case TEXT: // System.err.println("Text --> string"); attributeTypes[i - 1] = Attribute.STRING; nominalIndexes[i - 1] = new Hashtable(); nominalStrings[i - 1] = new ArrayList(); break; case BOOL: // System.err.println("boolean --> nominal"); attributeTypes[i - 1] = Attribute.NOMINAL; nominalIndexes[i - 1] = new Hashtable(); nominalIndexes[i - 1].put("false", new Double(0)); nominalIndexes[i - 1].put("true", new Double(1)); nominalStrings[i - 1] = new ArrayList(); nominalStrings[i - 1].add("false"); nominalStrings[i - 1].add("true"); break; case DOUBLE: // System.err.println("BigDecimal --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case BYTE: // System.err.println("byte --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case SHORT: // System.err.println("short --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case INTEGER: // System.err.println("int --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case LONG: // System.err.println("long --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case FLOAT: // System.err.println("float --> numeric"); attributeTypes[i - 1] = Attribute.NUMERIC; break; case DATE: attributeTypes[i - 1] = Attribute.DATE; break; case TIME: attributeTypes[i - 1] = Attribute.DATE; break; default: // System.err.println("Unknown column type"); attributeTypes[i - 1] = Attribute.STRING; } } // For sqlite // cache column names because the last while(rs.next()) { iteration for // the tuples below will close the md object: Vector columnNames = new Vector(); for (int i = 0; i < numAttributes; i++) { columnNames.add(md.getColumnLabel(i + 1)); } // Step through the tuples if (adapter.getDebug()) { System.err.println("Creating instances..."); } ArrayList instances = new ArrayList(); int rowCount = 0; while (rs.next()) { if (rowCount % 100 == 0) { if (adapter.getDebug()) { System.err.print("read " + rowCount + " instances \r"); System.err.flush(); } } double[] vals = new double[numAttributes]; for (int i = 1; i <= numAttributes; i++) { /* * switch (md.getColumnType(i)) { case Types.CHAR: case Types.VARCHAR: * case Types.LONGVARCHAR: case Types.BINARY: case Types.VARBINARY: case * Types.LONGVARBINARY: */ switch (adapter.translateDBColumnType(md.getColumnTypeName(i))) { case STRING: String str = rs.getString(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { Double index = nominalIndexes[i - 1].get(str); if (index == null) { index = new Double(nominalStrings[i - 1].size()); nominalIndexes[i - 1].put(str, index); nominalStrings[i - 1].add(str); } vals[i - 1] = index.doubleValue(); } break; case TEXT: String txt = rs.getString(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { Double index = nominalIndexes[i - 1].get(txt); if (index == null) { // Need to add one because first value in // string attribute is dummy value. index = new Double(nominalStrings[i - 1].size()) + 1; nominalIndexes[i - 1].put(txt, index); nominalStrings[i - 1].add(txt); } vals[i - 1] = index.doubleValue(); } break; case BOOL: boolean boo = rs.getBoolean(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = (boo ? 1.0 : 0.0); } break; case DOUBLE: // BigDecimal bd = rs.getBigDecimal(i, 4); double dd = rs.getDouble(i); // Use the column precision instead of 4? if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { // newInst.setValue(i - 1, bd.doubleValue()); vals[i - 1] = dd; } break; case BYTE: byte by = rs.getByte(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = by; } break; case SHORT: short sh = rs.getShort(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = sh; } break; case INTEGER: int in = rs.getInt(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = in; } break; case LONG: long lo = rs.getLong(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = lo; } break; case FLOAT: float fl = rs.getFloat(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { vals[i - 1] = fl; } break; case DATE: Date date = rs.getDate(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { // TODO: Do a value check here. vals[i - 1] = date.getTime(); } break; case TIME: Time time = rs.getTime(i); if (rs.wasNull()) { vals[i - 1] = Utils.missingValue(); } else { // TODO: Do a value check here. vals[i - 1] = time.getTime(); } break; default: vals[i - 1] = Utils.missingValue(); } } Instance newInst; if (adapter.getSparseData()) { newInst = new SparseInstance(1.0, vals); } else { newInst = new DenseInstance(1.0, vals); } instances.add(newInst); rowCount++; } // disconnectFromDatabase(); (perhaps other queries might be made) // Create the header and add the instances to the dataset if (adapter.getDebug()) { System.err.println("Creating header..."); } ArrayList attribInfo = new ArrayList(); for (int i = 0; i < numAttributes; i++) { /* Fix for databases that uppercase column names */ // String attribName = attributeCaseFix(md.getColumnName(i + 1)); String attribName = adapter.attributeCaseFix(columnNames.get(i)); switch (attributeTypes[i]) { case Attribute.NOMINAL: attribInfo.add(new Attribute(attribName, nominalStrings[i])); break; case Attribute.NUMERIC: attribInfo.add(new Attribute(attribName)); break; case Attribute.STRING: Attribute att = new Attribute(attribName, (ArrayList) null); attribInfo.add(att); for (int n = 0; n < nominalStrings[i].size(); n++) { att.addStringValue(nominalStrings[i].get(n)); } break; case Attribute.DATE: attribInfo.add(new Attribute(attribName, (String) null)); break; default: throw new Exception("Unknown attribute type"); } } Instances result = new Instances("QueryResult", attribInfo, instances.size()); for (int i = 0; i < instances.size(); i++) { result.add(instances.get(i)); } return result; } /** * Makes a database query to convert a table into a set of instances * * @param query the query to convert to instances * @return the instances contained in the result of the query, NULL if the SQL * query doesn't return a ResultSet, e.g., DELETE/INSERT/UPDATE * @throws Exception if an error occurs */ public Instances retrieveInstances(String query) throws Exception { if (m_Debug) { System.err.println("Executing query: " + query); } connectToDatabase(); if (execute(query) == false) { if (m_PreparedStatement.getUpdateCount() == -1) { throw new Exception("Query didn't produce results"); } else { if (m_Debug) { System.err.println(m_PreparedStatement.getUpdateCount() + " rows affected."); } close(); return null; } } ResultSet rs = getResultSet(); if (m_Debug) { System.err.println("Getting metadata..."); } Instances result = retrieveInstances(this, rs); close(rs); return result; } /** * Test the class from the command line. The instance query should be * specified with -Q sql_query * * @param args contains options for the instance query */ public static void main(String args[]) { try { InstanceQuery iq = new InstanceQuery(); String query = Utils.getOption('Q', args); if (query.length() == 0) { iq.setQuery("select * from Experiment_index"); } else { iq.setQuery(query); } iq.setOptions(args); try { Utils.checkForRemainingOptions(args); } catch (Exception e) { System.err.println("Options for weka.experiment.InstanceQuery:\n"); Enumeration




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