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• Apply.java

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weka.core.pmml.Apply Maven / Gradle / Ivy

/*
 *   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 .
 */

/*
 *    Apply.java
 *    Copyright (C) 2008-2012 University of Waikato, Hamilton, New Zealand
 *
 */

package weka.core.pmml;

import java.util.ArrayList;

import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;

import weka.core.Attribute;

/**
 * Class encapsulating an Apply Expression.
 * 
 * @author Mark Hall (mhall{[at]}pentaho{[dot]}com)
 * @version $Revision 1.0 $
 */
class Apply extends Expression {
  
  /**
   * For serialization
   */
  private static final long serialVersionUID = -2790648331300695083L;

  /** The list of arguments the function encapsulated in this Apply Expression */
  protected ArrayList m_arguments = new ArrayList();
  
  /** The function to apply (either built-in or a DefineFunction) */
  protected Function m_function = null;
  
  /** The structure of the result of Apply Expression */
  protected Attribute m_outputStructure = null;
  
  /**
   * Constructor. Reads the function name and argument Expressions for
   * this Apply Expression.
   * 
   * @param apply the Element encapsulating this Apply
   * @param opType the optype for this expression (taken from either the 
   * enclosing DefineFunction or DerivedField)
   * @param fieldDefs an ArrayList of Attributes for the fields that this
   * Expression might need to access
   * @param transDict the TransformationDictionary (may be null if there is
   * no dictionary)
   * @throws Exception if there is a problem parsing this Apply Expression
   */
  protected Apply(Element apply, FieldMetaInfo.Optype opType, ArrayList fieldDefs,
      TransformationDictionary transDict) 
    throws Exception {
    super(opType, fieldDefs);
    
    String functionName = apply.getAttribute("function");
    if (functionName == null || functionName.length() == 0) {
      // try the attribute "name" - a sample file produced by MARS
      // uses this attribute name rather than "function" as defined
      // in the PMML spec
      functionName = apply.getAttribute("name");
    }
    
    if (functionName == null || functionName.length() == 0) {
      throw new Exception("[Apply] No function name specified!!");
    }
    //System.err.println(" *** " + functionName);
    m_function = Function.getFunction(functionName, transDict);
    
    // now read the arguments
    NodeList children = apply.getChildNodes();
    for (int i = 0; i < children.getLength(); i++) {
      Node child = children.item(i);
      if (child.getNodeType() == Node.ELEMENT_NODE) {
        String tagName = ((Element)child).getTagName();
        if (!tagName.equals("Extension")) {
          //System.err.println(" ++ " + tagName);
          Expression tempExpression = 
            Expression.getExpression(tagName, child, m_opType, m_fieldDefs, transDict);
          if (tempExpression != null) {
            m_arguments.add(tempExpression);
          }
        }
      }
    }
    
    if (fieldDefs != null) {
      updateDefsForArgumentsAndFunction();
    }
  }
  
  public void setFieldDefs(ArrayList fieldDefs) throws Exception {
    super.setFieldDefs(fieldDefs);
    updateDefsForArgumentsAndFunction();
  }
  
  private void updateDefsForArgumentsAndFunction() throws Exception {
    for (int i = 0; i < m_arguments.size(); i++) {
      m_arguments.get(i).setFieldDefs(m_fieldDefs);
    }
    
    // set the parameter defs for the function here so that we can determine
    // the structure of the output we produce
    ArrayList functionFieldDefs = new ArrayList(m_arguments.size());
    for (int i = 0; i < m_arguments.size(); i++) {     
      functionFieldDefs.add(m_arguments.get(i).getOutputDef());
    }
    m_function.setParameterDefs(functionFieldDefs);
    m_outputStructure = m_function.getOutputDef();
  }

  /**
   * Get the result of evaluating the expression. In the case
   * of a continuous optype, a real number is returned; in
   * the case of a categorical/ordinal optype, the index of the nominal
   * value is returned as a double.
   * 
   * @param incoming the incoming parameter values
   * @return the result of evaluating the expression
   * @throws Exception if there is a problem computing the result
   */
  public double getResult(double[] incoming)
      throws Exception {
    
    // assemble incoming to apply function to by processing each Expression
    // in the list of arguments
    double[] functionIncoming = new double[m_arguments.size()];
    //ArrayList functionParamTypes = m_function.getParameters();
    for (int i = 0; i < m_arguments.size(); i++) {
      functionIncoming[i] = m_arguments.get(i).getResult(incoming);
    }
    
    
    double result = m_function.getResult(functionIncoming);
    
    return result;
  }

  /**
   * Get the result of evaluating the expression for continuous
   * optype. Is the same as calling getResult() when the optype
   * is continuous.
   * 
   * @param incoming the incoming parameter values
   * mining schema
   * @return the result of evaluating the expression.
   * @throws Exception if the optype is not continuous.
   */
  public String getResultCategorical(double[] incoming) throws Exception {
        
    if (m_opType == FieldMetaInfo.Optype.CONTINUOUS) {
      throw new IllegalArgumentException("[Apply] Can't return result as "
          + "categorical/ordinal because optype is continuous!");
    }
    
    double result = getResult(incoming);
    return m_outputStructure.value((int)result);
  }
  
  /**
   * Return the structure of the result of applying this Expression
   * as an Attribute.
   * 
   * @return the structure of the result of applying this Expression as an
   * Attribute.
   */
  public Attribute getOutputDef() {
    if (m_outputStructure == null) {
      // return a "default" output def. This will get replaced
      // by a final one when the final field defs are are set
      // for all expressions after all derived fields are collected
      return (m_opType == FieldMetaInfo.Optype.CATEGORICAL ||
          m_opType == FieldMetaInfo.Optype.ORDINAL)
      ? new Attribute("Placeholder", new ArrayList())
      : new Attribute("Placeholder");
    }
    return m_outputStructure;//.copy(attName);
  }
  
  public String toString(String pad) {
    StringBuffer buff = new StringBuffer();
    
    // Used for DefineFunctions so that we can see which arguments
    // correspond to which parameters
    String[] parameterNames = null;
    
    buff.append(pad + "Apply [" + m_function.toString() +"]:\n");
    buff.append(pad + "args:");
    if (m_function instanceof DefineFunction) {
      parameterNames = m_function.getParameterNames();
    }
    for (int i = 0; i < m_arguments.size(); i++) {
      Expression e = m_arguments.get(i);
      buff.append("\n" + 
          ((parameterNames != null)
              ? pad + parameterNames[i] + " = "
              : "") 
              + e.toString(pad + "  "));
    }
    
    return buff.toString();
  }
}