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packtest.cpp File Reference

This file contains test code for wavelet packet tree construction and for testing the best basis calculation. More...

#include <assert.h>
#include <stdio.h>
#include "haar.h"
#include "haar_classic.h"
#include "haar_classicFreq.h"
#include "packnode.h"
#include "packcontainer.h"
#include "packtree.h"
#include "invpacktree.h"
#include "costshannon.h"
#include "costthresh.h"

Go to the source code of this file.

Functions

void prVec (double *vec, size_t len)
 \function. More...

void testWaveletTrans (const double *data, const size_t len)
 Test that the wavelet transform is invertable. More...

int main ()
 The entry point for code to test the wavelet packet transform. More...


Variables

double data []


Detailed Description

This file contains test code for wavelet packet tree construction and for testing the best basis calculation.

The documentation in this file is formatted for doxygen (see www.doxygen.org).

Copyright and Use

You may use this source code without limitation and without fee as long as you include: This software was written and is copyrighted by Ian Kaplan, Bear Products International, www.bearcave.com, 2002.

This software is provided "as is", without any warranty or claim as to its usefulness. Anyone who uses this source code uses it at their own risk. Nor is any support provided by Ian Kaplan and Bear Products International.

Please send any bug fixes or suggested source changes to:

     iank@bearcave.com

Author:
Ian Kaplan

Definition in file packtest.cpp.


Function Documentation

int main ( )
 

The entry point for code to test the wavelet packet transform.

The code in main provides a simple example of how to call the wavelet packet transform code.

Definition at line 126 of file packtest.cpp.

00127 {
00128   size_t len = sizeof(data)/sizeof(double);
00129   // testWaveletTrans( data, len );
00130 
00131   // The "Haar" classic transform
00132   haar_classic<packcontainer> h;
00133 
00134   // calculate the wavelet packet tree, using the wavelet transform h
00135   packtree tree( data, len, &h );
00136   // print the wavelet transform tree (breadth first)
00137   tree.pr();
00138 
00139   // get the root of the wavelet packet transform tree
00140   packnode<double> *treeRoot = tree.getRoot();
00141 
00142   // assign the Shannon entropy cost function to the tree
00143   costshannon cost( treeRoot );
00144 
00145   // Calculate a simple threshold cost function on the 
00146   // wavelet packet transform tree
00147   // costthresh thresh( treeRoot, 1.0 );
00148 
00149   printf("\n");
00150   // Print the wavelet packet transform tree showing the cost
00151   // function result.
00152   tree.prCost();
00153 
00154   // Calculate the "best basis" function from the tree
00155   tree.bestBasis();
00156 
00157   printf("\n");
00158 
00159   // Print the wavelet packet tree showing the nodes selected
00160   // as part of the "best basis" set.
00161   tree.prBestBasis();
00162 
00163   // Check that the best basis function succeeded.  That is,
00164   // that the best basis function does not include the 
00165   // original data.
00166   if (tree.bestBasisOK()) {
00167     printf("Best basis calculation succeeded\n");
00168   }
00169   else {
00170     printf("Best basis calculation failed\n");
00171   }
00172 
00173   printf("\n");
00174 
00175   // Get the best basis list.  This will be a list of
00176   // nodes consisting of the best basis set.  This set is
00177   // obtained by traversing the tree, top down, left to
00178   // right.
00179   packdata_list<double> bestBasis = tree.getBestBasisList();
00180 
00181   // Print the "best basis" set.
00182   bestBasis.pr();
00183 
00184   printf("\n");
00185 
00186   // Calculate the inverse wavelet packet transform from the
00187   // "best basis" list.
00188   invpacktree invtree( bestBasis, &h );
00189 
00190   printf("Inverse wavelet packet transform result:\n");
00191   invtree.pr();
00192 
00193   // free the memory pool
00194   block_pool mem_pool;
00195   mem_pool.free_pool();
00196 
00197   return 0;
00198 }

void prVec ( double * vec,
size_t len )
 

\function.

Print a vector of doubles whose length is len.

Definition at line 74 of file packtest.cpp.

Referenced by testWaveletTrans().

00075 {
00076   for (int i = 0; i < len; i++) {
00077     printf("%7.4f ", vec[i] );
00078   }
00079   printf("\n");
00080 }

void testWaveletTrans ( const double * data,
const size_t len )
 

Test that the wavelet transform is invertable.

Definition at line 88 of file packtest.cpp.

00089 {
00090   haar<double *> haarVec;
00091   block_pool mem_pool;
00092   
00093   size_t num_bytes = len * sizeof(double);
00094   double *vec = (double *)mem_pool.pool_alloc( num_bytes );
00095 
00096   for (int i = 0; i < len; i++) {
00097     vec[i] = data[i];
00098   }
00099 
00100   printf("Before forward trans:\n");
00101   prVec( vec, len );
00102 
00103   haarVec.forwardTrans( vec, len );
00104   printf("After forward trans:\n");
00105   prVec( vec, len );
00106 
00107   haarVec.inverseTrans( vec, len );
00108   printf("After inverse trans:\n");
00109   prVec( vec, len );
00110 
00111   printf("\n");
00112 
00113 } // testWaveletTrans


Variable Documentation

double data[]
 

Initial value:

 { 32.0, 10.0, 20.0, 38.0, 37.0, 28.0, 38.0, 34.0,
                  18.0, 24.0, 18.0, 9.0, 23.0, 24.0, 28.0, 34.0 }

Definition at line 60 of file packtest.cpp.


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