📄 rbfkernel.java
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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 2 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, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/*
* RBFKernel.java
* Copyright (C) 1999 Eibe Frank
*
*/
package weka.classifiers.functions.supportVector;
import weka.core.*;
/**
* The RBF kernel.
* K(x, y) = e^-(gamma * <x-y, x-y>^2)
*
* @author Eibe Frank (eibe@cs.waikato.ac.nz)
* @author Shane Legg (shane@intelligenesis.net) (sparse vector code)
* @author Stuart Inglis (stuart@reeltwo.com) (sparse vector code)
* @author J. Lindgren (jtlindgr{at}cs.helsinki.fi) (RBF kernel)
* @version $$ */
public class RBFKernel extends Kernel {
/** The precalculated dotproducts of <inst_i,inst_i> */
private double m_kernelPrecalc[];
/** Counts the number of kernel evaluations. */
private int m_kernelEvals = 0;
/** The size of the cache (a prime number) */
private int m_cacheSize;
/** Kernel cache */
private double[] m_storage;
private long[] m_keys;
/** Gamma for the RBF kernel. */
private double m_gamma = 0.01;
/** The number of instance in the dataset */
private int m_numInsts;
/**
* Constructor. Initializes m_kernelPrecalc[].
*/
public RBFKernel(Instances data, int cacheSize, double gamma) throws Exception {
m_gamma = gamma;
m_data = data;
m_numInsts = m_data.numInstances();
m_cacheSize = cacheSize;
m_storage = new double[m_cacheSize];
m_keys = new long[m_cacheSize];
m_kernelPrecalc=new double[data.numInstances()];
for(int i=0;i<data.numInstances();i++)
m_kernelPrecalc[i]=dotProd(data.instance(i),data.instance(i));
}
/**
* Implements the abstract function of Kernel.
*/
public double eval(int id1, int id2, Instance inst1)
throws Exception {
double result = 0;
long key = -1;
int location = -1;
// we can only cache if we know the indexes
if (id1 >= 0) {
if (id1 > id2) {
key = (long)id1 * m_numInsts + id2;
} else {
key = (long)id2 * m_numInsts + id1;
}
if (key < 0) {
throw new Exception("Cache overflow detected!");
}
location = (int)(key % m_keys.length);
if (m_keys[location] == (key + 1)) {
return m_storage[location];
}
}
Instance inst2 = m_data.instance(id2);
double precalc1;
if(id1 == -1)
precalc1 = dotProd(inst1,inst1);
else
precalc1 = m_kernelPrecalc[id1];
result = Math.exp(m_gamma * (2. * dotProd(inst1, inst2) -
precalc1 - m_kernelPrecalc[id2]));
m_kernelEvals++;
// store result in cache
if (key != -1){
m_storage[location] = result;
m_keys[location] = (key + 1);
}
return result;
}
/**
* Calculates a dot product between two instances
*
* @param inst1 the first instance
* @param inst2 the second instance
* @return the dot product of the two instances.
* @exception Exception if an error occurs
*/
private double dotProd(Instance inst1, Instance inst2)
throws Exception {
double result=0;
// we can do a fast dot product
int n1 = inst1.numValues(); int n2 = inst2.numValues();
int classIndex = m_data.classIndex();
for (int p1 = 0, p2 = 0; p1 < n1 && p2 < n2;) {
int ind1 = inst1.index(p1);
int ind2 = inst2.index(p2);
if (ind1 == ind2) {
if (ind1 != classIndex) {
result += inst1.valueSparse(p1) * inst2.valueSparse(p2);
}
p1++; p2++;
} else if (ind1 > ind2) {
p2++;
} else {
p1++;
}
}
return(result);
}
/**
* Frees the cache used by the kernel.
*/
public void clean(){
m_storage = null;
m_keys = null;
}
/**
* Returns the number of time Eval has been called.
*
* @return the number of kernel evaluation.
*/
public int numEvals(){
return m_kernelEvals;
}
}
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